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id int64 1 44.4k	title stringlengths 3 986	slug stringlengths 9 159	question stringlengths 34 62.2k	tags stringlengths 23 126	options stringlengths 4 149k	correct_option stringlengths 4 50.2k	answer stringlengths 29 69.3k	source_db stringclasses 14 values
2,552	which-of-the-following-reactions-gives-a-mesocompound-as-the-main-product	which-of-the-following-reactions-gives-a-mesocompound-as-the-main-product-56339	<div class="question">Which of the following reactions give(s) a meso-compound as the main product?</div>	['Chemistry', 'Hydrocarbons', 'WBJEE', 'WBJEE 2020']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/aS9YZpIWMhT51N8bY_dFEHSaLQrlrZV6vP_HsvTlZDw.original.fullsize.png"/></span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/ewsZ4h6rTHCJ7uH4WI68dcHFCzyQdRRcVsPXFaMRmlY.original.fullsize.png"/></span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/n_ojbOX5ilw031i86VMApxLCm0Mh3tNNX5ngpMwB6i8.original.fullsize.png"/></span> </li><li class=""> <span class="option-label">D</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/mn1ZD_aEZSpFjKbncz9VWjWZjcpcxQO5lYf3imMkOJA.original.fullsize.png"/></span> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/aS9YZpIWMhT51N8bY_dFEHSaLQrlrZV6vP_HsvTlZDw.original.fullsize.png"/>, <img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/ewsZ4h6rTHCJ7uH4WI68dcHFCzyQdRRcVsPXFaMRmlY.original.fullsize.png"/></span> </div>	<div class="solution">Hint: <br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/8UQtN2Md0f0ke6C3TYskl7_fGoSZl33eV2NDBgLt6zk.original.fullsize.png"/></div>	db\MarksBatch2_P4.db
2,553	which-of-the-following-reactions-will-not-result-in-the-formation-of-carboncarbon-bonds-2	which-of-the-following-reactions-will-not-result-in-the-formation-of-carboncarbon-bonds-2-40448	<div class="question">Which of the following reactions will not result in the formation of carbon-carbon bonds?</div>	['Chemistry', 'Aldehydes and Ketones', 'JEE Main']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">Cannizzaro reaction</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Wurtz reaction</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">Reimer-Tiemann reaction</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Friedel-Crafts acylation</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Cannizzaro reaction</span> </div>	<div class="solution">$\mathrm{C}-\mathrm{C}$ bond is not formed in Cannizaro reaction while other reactions result in the formation of $\mathrm{C}-\mathrm{C}$ bond. <br/>Cannizaro reaction <br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_a6.png"/> <br/> <br/>Wurtz reaction <br/>$2 R-X+2 \mathrm{Na} \longrightarrow R-R+2 \mathrm{Na} \times$<img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_a6a.png"/></div>	db\MarksBatch2_P4.db
2,554	which-of-the-following-reactions-will-not-result-in-the-formation-of-carboncarbon-bonds	which-of-the-following-reactions-will-not-result-in-the-formation-of-carboncarbon-bonds-62747	<div class="question">Which of the following reactions will not result in the formation of carbon-carbon bonds?</div>	['Chemistry', 'Aldehydes and Ketones', 'WBJEE', 'WBJEE 2016']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">Cannizzaro reaction</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Wurtz reaction</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">Reimer-Tiemann reaction</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Friedel-Crafts acylation</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Cannizzaro reaction</span> </div>	<div class="solution">$\mathrm{C}-\mathrm{C}$ bond is not formed in Cannizaro reaction while other reactions result in the formation of $\mathrm{C}-\mathrm{C}$ bond. <br/>Cannizaro reaction <br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_a6.png"/> <br/> <br/>Wurtz reaction <br/>$2 R-X+2 \mathrm{Na} \longrightarrow R-R+2 \mathrm{Na} \times$<img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_a6a.png"/></div>	db\MarksBatch2_P4.db
2,555	which-of-the-following-real-valued-functions-isare-not-even-functions	which-of-the-following-real-valued-functions-isare-not-even-functions-15639	<div class="question">Which of the following real valued functions is/are not even functions?</div>	['Mathematics', 'Functions', 'WBJEE', 'WBJEE 2013']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$f(x)=x^{3} \sin x$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$f(x)=x^{2} \cos x$</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">$f(x)=e^{x} x^{3} \sin x$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">$f(x)=x-[x]$, where $[x]$ denotes the greatest integer less than or equal to $x$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">$f(x)=e^{x} x^{3} \sin x$, $f(x)=x-[x]$, where $[x]$ denotes the greatest integer less than or equal to $x$</span> </div>	<div class="solution">We know that, if $f(-x)=f(x)$, then function is even and $f(-x)=-f(x)$, then function is odd. <br/>(a) $f(x)=x^{3} \sin x$ <br/>$$ <br/>\begin{aligned} <br/>f(-x) &=(-x)^{3} \sin (-x) \\ <br/>&=-x^{3}(-\sin x) \\ <br/>&=x^{3} \sin x=f(x) <br/>\end{aligned} <br/>$$ <br/>So, $f(x)$ is even. <br/>(b) $f(x)=x^{2} \cos x$ <br/>$$ <br/>f(-x)=(-x)^{2} \cos (-x)=x^{2} \cos x=f(x) <br/>$$ <br/>So, $f(x)$ is even. <br/>(c) $f(x)=e^{x} x^{3} \sin x$ <br/>$$ <br/>\begin{array}{r} <br/>f(-x)=e^{-x}(-x)^{3} \sin (-x) \\ <br/>=e^{-x} x^{3} \sin x \neq f(x) <br/>\end{array} <br/>$$ <br/>$\therefore \quad f(x)$ is not even. <br/>(d) $f(x)=x-[x]$ $f(-x)=(-x)-[-x] \neq f(x)$ <br/>$\therefore f(x)$ is not even.</div>	db\MarksBatch2_P4.db
2,556	which-of-the-following-relation-represent-biotsavarts-law	which-of-the-following-relation-represent-biotsavarts-law-97756	<div class="question">Which of the following relation represent Biot-Savart's law?</div>	['Physics', 'Magnetic Effects of Current', 'WBJEE', 'WBJEE 2009']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\mathrm{d} \overline{\mathrm{B}}=\frac{\mu_0}{4 \pi} \frac{\overline{\mathrm{d}} \times \overline{\mathrm{r}}}{\mathrm{r}}$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\mathrm{d} \overline{\mathrm{B}}=\frac{\mu_0}{4 \pi} \frac{\overline{\mathrm{d}} \mathrm{l} \times \hat{\mathrm{r}}}{\mathrm{r}^3}$</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">$\mathrm{d} \overline{\mathrm{B}}=\frac{\mu_0}{4 \pi} \frac{\overline{\mathrm{d}} \times \overline{\mathrm{r}}}{\mathrm{r}^3}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$\mathrm{d} \overline{\mathrm{B}}=\frac{\mu_0}{4 \pi} \frac{\overline{\mathrm{d}} \times \overline{\mathrm{r}}}{\mathrm{r}^4}$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\mathrm{d} \overline{\mathrm{B}}=\frac{\mu_0}{4 \pi} \frac{\overline{\mathrm{d}} \times \overline{\mathrm{r}}}{\mathrm{r}^3}$</span> </div>	<div class="solution">$d \vec{B}=\frac{\mu_0}{4 \pi} \frac{I(\overrightarrow{d \ell} \times \vec{r})}{r^3}$</div>	db\MarksBatch2_P4.db
2,557	which-of-the-following-represents-the-composition-of-carnallite-mineral	which-of-the-following-represents-the-composition-of-carnallite-mineral-12297	<div class="question">Which of the following represents the composition of Carnallite mineral?</div>	['Chemistry', 'General Principles and Processes of Isolation of Metals', 'WBJEE', 'WBJEE 2011']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\mathrm{K}_2 \mathrm{O} \cdot \mathrm{Al}_2 \mathrm{O}_3 \cdot 6 \mathrm{SiO}_2$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\mathrm{KNO}_3$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\mathrm{K}_2 \mathrm{SO}_4 \cdot \mathrm{MgSO}_4 \cdot \mathrm{MgCl}_2 \cdot 6 \mathrm{H}_2 \mathrm{O}$</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">$\mathrm{KCl} . \mathrm{MgCl}_2 \cdot 6 \mathrm{H}_2 \mathrm{O}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\mathrm{KCl} . \mathrm{MgCl}_2 \cdot 6 \mathrm{H}_2 \mathrm{O}$</span> </div>	<div class="solution">Hints: Fact</div>	db\MarksBatch2_P4.db
2,558	which-of-the-following-sets-of-quantum-numbers-represents-the-1-9-th-electron-of-cr-z-24	which-of-the-following-sets-of-quantum-numbers-represents-the-1-9-th-electron-of-cr-z-24-59269	<div class="question">Which of the following sets of quantum numbers represents the $19^{\text {th }}$ electron of $\operatorname{Cr}(Z=24) ?$</div>	['Chemistry', 'Structure of Atom', 'WBJEE', 'WBJEE 2017']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\left(4,1,-1,+\frac{1}{2}\right)$</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">$\left(4,0,0,+\frac{1}{2}\right)$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\left(3,2,0,-\frac{1}{2}\right)$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$\left(3,2,-2,+\frac{1}{2}\right)$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\left(4,0,0,+\frac{1}{2}\right)$</span> </div>	<div class="solution">Electronic configuration for $\operatorname{Cr}(24)$ <br/>$=\left[\mathrm{Ar}]_{18} 4 s^{1} 3 d^{3}\right.$ <br/>$\therefore 19^{\text {b }}$ electron enters in $4 s$ -orbital and its set of quantum numbers is $n=4, l=0, m=0, m_{x}=+\frac{1}{2}$</div>	db\MarksBatch2_P4.db
2,559	which-of-the-following-solutions-will-turn-violet-when-a-drop-of-lime-juice-is-added-to-it	which-of-the-following-solutions-will-turn-violet-when-a-drop-of-lime-juice-is-added-to-it-10164	<div class="question">Which of the following solutions will turn violet when a drop of lime juice is added to it?</div>	['Chemistry', 'Practical Chemistry', 'WBJEE', 'WBJEE 2017']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">A solution of Nal</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">A solution mixture of $\mathrm{KI}$ and $\mathrm{NaIO}_{3}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">A solution mixture of Nal and KI</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">A solution mixture of $\mathrm{KIO}_{3}$ and $NaIO_{3}$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">A solution mixture of $\mathrm{KI}$ and $\mathrm{NaIO}_{3}$</span> </div>	<div class="solution">When drop of line juice is added to mixture of $\mathrm{I}+\mathrm{IO}_{3}^{-}$. The following reaction take place and violet colour appears due to formation of $\mathrm{I}_{2}$ <br/>$\mathrm{I}+\mathrm{IO}_{3}^{-}+\mathrm{H}^{+} \longrightarrow \mathrm{I}_{2}+\mathrm{H}_{2} \mathrm{O}$</div>	db\MarksBatch2_P4.db
2,560	which-of-the-following-statements-are-true-1	which-of-the-following-statements-are-true-1-26895	<div class="question">Which of the following statements are true?</div>	['Mathematics', 'Definite Integration', 'WBJEE', 'WBJEE 2023']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">If $f(x)$ be continuous and periodic with periodicity $T$, then $I=\int_a^{a+T} f(x) d x$ depend on ' $a$ '.</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">If $f(x)$ be continuous and periodic with periodicity $T$, then $I=\int_a^{a+T} f(x) d x$ does not depend on ' $a$ '.</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">Let $f(x)=\left\{\begin{array}{l}1 \text {, if } x \text { is rational } \\ 0, \text { if } x \text { is irrational }\end{array}\right.$, then $f$ is periodic of the periodicity $T$ only if $T$ is rational</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">$f$ defined in (C) is periodic for all $T$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">If $f(x)$ be continuous and periodic with periodicity $T$, then $I=\int_a^{a+T} f(x) d x$ does not depend on ' $a$ '., $f$ defined in (C) is periodic for all $T$</span> </div>	<div class="solution">Hint: (A) $I=\int_a^{a+T} f(x) d x=\int_0^T f(x) d x$ Independent of a<br/>(B) $I=\int_a^{a+T} f(x) d x=\int_0^T f(x) d x$ does not depend on ' $a$ '<br/>(C) $f(x)=\left\{\begin{array}{l}1, x \in Q \\ 0, x \notin Q\end{array}\right.$ is periodic for all $T$ with undefined fundamental period.<br/>(D) $f$ defined on $(C)$ is periodic for all $T$ with undefined fundamental period.</div>	db\MarksBatch2_P4.db
2,561	which-of-the-following-statements-is-are-correct-for-0-2	which-of-the-following-statements-is-are-correct-for-0-2-25662	<div class="question">Which of the following statements is /are correct for $0 < \theta < \frac{\pi}{2} ?$</div>	['Mathematics', 'Trigonometric Equations', 'WBJEE', 'WBJEE 2015']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">$(\cos \theta)^{1 / 2} \leq \cos \frac{\theta}{2}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$(\cos \theta)^{3 / 4} \geq \cos \frac{3 \theta}{4}$</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">$\cos \frac{5 \theta}{6} \geq(\cos \theta)^{5 / 6}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$\cos \frac{70}{8} \leq(\cos \theta)^{7 / 8}$</span> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">$(\cos \theta)^{1 / 2} \leq \cos \frac{\theta}{2}$, $\cos \frac{5 \theta}{6} \geq(\cos \theta)^{5 / 6}$</span> </div>	<div class="solution">$0 < 0 < \frac{\pi}{2}, cos \theta$ is monotonically decreasing function <br/>Option <br/>(a) When $\theta>\frac{\theta}{2},$ then $\cos \theta \leq \cos \frac{\theta}{2}$ <br/>$\therefore \quad \sqrt{\cos \theta} \leq \cos \frac{\theta}{2} \quad$ correct <br/>(b) When $0>\frac{30}{4},$ then $\cos \theta \leq \cos \frac{30}{4}$ <br/>$\therefore \quad(\cos \theta)^{3 / 4} \leq \cos \frac{30}{4}$ <br/>incorrect\| <br/>(c) When $\theta>\frac{5 \theta}{6},$ then $\cos \theta \leq \cos \frac{50}{6}$ <br/>$\therefore \quad(\cos \theta)^{5 / 6} \leq \cos \frac{50}{6}$ <br/>[correct\| <br/>(d) When $\frac{7 \theta}{8} < \theta,$ then $\cos \theta \leq \cos \frac{7 \theta}{8}$ <br/>But $(\cos \theta)^{7 / 8} \leq \cos \frac{7 \theta}{8}$ <br/>\|incorrect\|</div>	db\MarksBatch2_P4.db
2,562	which-of-the-following-statements-is-are-correct-when-a-mixture-of-nacl-and-k-2-cr-2-o-7-is-gently-warmed-with-conc-h-2-so-4	which-of-the-following-statements-is-are-correct-when-a-mixture-of-nacl-and-k-2-cr-2-o-7-is-gently-warmed-with-conc-h-2-so-4-44888	<div class="question">Which of the following statement(s) is (are) correct when a mixture of $\mathrm{NaCl}$ and $\mathrm{K}_{2} \mathrm{Cr}_{2} \mathrm{O}_{7}$ is gently warmed with conc. $\mathrm{H}_{2} \mathrm{SO}_{4} ?$</div>	['Chemistry', 'd and f Block Elements', 'WBJEE', 'WBJEE 2016']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">A deep red vapour is evolved</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">The vapour when passed through NaOH solution, gives a yellow solution</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">Chiorine gas is also evolved</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">Chromyl chioride is formed</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">A deep red vapour is evolved, The vapour when passed through NaOH solution, gives a yellow solution, Chromyl chioride is formed</span> </div>	<div class="solution">(A) When $\mathrm{NaCl}$ and $\mathrm{K}_{2} \mathrm{Cr}_{2} \mathrm{O}_{7}$ warmed with $\mathrm{H}_{2} \mathrm{SO}_{4}$ (i.e. in acidic medium), they produce deep red vapours of chromyl chloride $\left(\mathrm{CrO}_{2} \mathrm{Cl}_{2}\right)$ <br/>(B) When NaOH is passod, the product $CrO_{3}$, formed In step (a) will react with NaOH and gives yellow colour solution <br/>(C) Chlorine gas is not evolved, thus false <br/>(D) In the given reaction, chromyl chloride $\left(\mathrm{CrO}_2\mathrm{Cl}_{2}\right)$ is formed. All reactions are as follows <br/>(i) $\mathrm{K}_{2} \mathrm{Cr}_{2} \mathrm{O}_{7}+2 \mathrm{H}_{2} \mathrm{SO}_{4} \longrightarrow 2 \mathrm{KHSO}_{4}+2 \mathrm{CrO}_{3}+\mathrm{H}_{2} \mathrm{O}$ <br/>(ii) $\mathrm{NaCl}+\mathrm{H}_{2} \mathrm{SO}_{4} \longrightarrow \mathrm{NaHSO}_{4}+\mathrm{HCl}$ <br/>(iii) $\mathrm{CrO}_{3}+2 \mathrm{HCl} \longrightarrow \mathrm{CrO}_{2} \mathrm{Cl}_{2}$ <br/>(iv) $\mathrm{CrO}_{2} \mathrm{Cl}_{2}+2 \mathrm{NaOH} \longrightarrow \mathrm{Na}_{2} \mathrm{CrO}_{4}+2 \mathrm{HCl}$</div>	db\MarksBatch2_P4.db
2,563	which-of-the-following-statements-is-incorrect-15	which-of-the-following-statements-is-incorrect-15-43587	<div class="question">Which of the following statements is incorrect?</div>	['Chemistry', 'Coordination Compounds', 'WBJEE', 'WBJEE 2023']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\left[\mathrm{VF}_6\right]^{3-}$ is paramagnetic with 2 unpaired electrons.</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\left[\mathrm{CuCl}_4\right]^{2-}$ is paramagnetic with 1 unpaired electron.</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\left[\mathrm{Co}\left(\mathrm{NH}_3\right)_6\right]^{3+}$ is diamagnetic.</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">$\left[\mathrm{CoF}_6\right]^{3-}$ is paramagnetic with 2 unpaired electrons.</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\left[\mathrm{CoF}_6\right]^{3-}$ is paramagnetic with 2 unpaired electrons.</span> </div>	<div class="solution">Hint : $\left[\stackrel{\text{III}}{\mathrm{Co}}\mathrm{F}_6\right]^{3-} \mathrm{As} \mathrm{F}^{-}$is weak field ligand.<br/>Oxidation Number of $\mathrm{Co}=+3$<br/>$\mathrm{Co}^{3+}\left(4 \mathrm{~s}^0 3 \mathrm{~d}^6\right)$<br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/yb_ORRYrSxW6xx9IsyG5huTyo-3R76LH0EFjCGsrB3w.original.fullsize.png"/><br/><br/>Number of unpaired $\mathrm{e}^{-}=4$</div>	db\MarksBatch2_P4.db
2,564	which-of-the-following-statements-is-not-correct-8	which-of-the-following-statements-is-not-correct-8-41870	<div class="question">Which of the following statements is not correct</div>	['Chemistry', 'p Block Elements (Group 13 & 14)', 'WBJEE', 'WBJEE 2009']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">Silicon is extensively used as a semiconductor</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Carborundum is $\mathrm{SiC}$</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">Silicon occurs in free state in nature</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Mica contains the element silicon</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Silicon occurs in free state in nature</span> </div>	<div class="solution">Hints : Silicon exist in nature in combined state as $\mathrm{SiO}_2$</div>	db\MarksBatch2_P4.db
2,565	which-of-the-following-statements-is-not-true-for-the-reaction-2-f-2-2-h-2-o-4-hf-o-2	which-of-the-following-statements-is-not-true-for-the-reaction-2-f-2-2-h-2-o-4-hf-o-2-97403	<div class="question">Which of the following statements is not true for the reaction $2 \mathrm{~F}_{2}+2 \mathrm{H}_{2} \mathrm{O} \rightarrow 4 \mathrm{HF}+\mathrm{O}_{2} ?$</div>	['Chemistry', 'Classification of Elements and Periodicity in Properties', 'WBJEE', 'WBJEE 2020']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\mathrm{F}_{2}$ is more strongly oxidising than $\mathrm{O}_{2}$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\mathrm{F}-\mathrm{F}$ bond is weaker than $\mathrm{O}=\mathrm{O}$ bond</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\mathrm{H}-\mathrm{F}$ bond is stronger than $\mathrm{H}-\mathrm{O}$ bond</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">$\mathrm{F}$ is less electronegative than $\mathrm{O}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\mathrm{F}$ is less electronegative than $\mathrm{O}$</span> </div>	<div class="solution">Hint: <br/>$\mathrm{F}$ is more electronegative than $\mathrm{O}$</div>	db\MarksBatch2_P4.db
2,566	which-of-the-following-statements-isare-incorrect	which-of-the-following-statements-isare-incorrect-98346	<div class="question">Which of the following statement(s) is/are incorrect:</div>	['Chemistry', 'p Block Elements (Group 15, 16, 17 & 18)', 'WBJEE', 'WBJEE 2020']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">A sink of $\mathrm{SO}_{2}$ pollutant is $\mathrm{O}_{3}$ in the atmosphere.</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">FGD is a process of removing $\mathrm{NO}_{2}$ from atmosphere</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">NO in fuel gases can be removed by alkaline scrubbing</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">The catalyst used to convert $\mathrm{CCl}_{4}$ to $\mathrm{CF}_{4}$ by $\mathrm{HF}$ is $\mathrm{SbF}_{5}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">A sink of $\mathrm{SO}_{2}$ pollutant is $\mathrm{O}_{3}$ in the atmosphere., FGD is a process of removing $\mathrm{NO}_{2}$ from atmosphere, The catalyst used to convert $\mathrm{CCl}_{4}$ to $\mathrm{CF}_{4}$ by $\mathrm{HF}$ is $\mathrm{SbF}_{5}$</span> </div>	<div class="solution">Hint: <br/>Oxides of nitrogen can be removed by alkaline scrubbing.</div>	db\MarksBatch2_P4.db
2,567	which-of-the-following-statements-regarding-lanthanides-is-false	which-of-the-following-statements-regarding-lanthanides-is-false-78698	<div class="question">Which of the following statements regarding Lanthanides is false?</div>	['Chemistry', 'd and f Block Elements', 'WBJEE', 'WBJEE 2016']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">All lanthanides are solid at room temperature</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Their usual oxidation state is +3</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">They can be separated from one another by ion-exchange method</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">Ionic radii of trivalent lanthanides steadily increases with increase in atomic number</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Ionic radii of trivalent lanthanides steadily increases with increase in atomic number</span> </div>	<div class="solution">The option (d) is false as lonic radi of trivalent lanthanides decreases with increase in atomic number due to lanthanoid contraction.</div>	db\MarksBatch2_P4.db
2,568	which-of-the-following-statements-regarding-ozone-is-not-correct	which-of-the-following-statements-regarding-ozone-is-not-correct-50694	<div class="question">Which of the following statements regarding ozone is not correct?</div>	['Chemistry', 'p Block Elements (Group 15, 16, 17 & 18)', 'WBJEE', 'WBJEE 2010']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">The Ozone molecule is angular in shape</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">The Ozone is a resonance hybrid of two structures</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">The Oxygen-Oxygen bond length in ozone is identical with that of molecular oxygen</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Ozone is used as germicide and disinfectant for the purification of air.</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">The Oxygen-Oxygen bond length in ozone is identical with that of molecular oxygen</span> </div>	<div class="solution">Hints : Due to resonance the bond order in ozone is 1.5 , hence $\mathrm{O}-\mathrm{O}$ bond length in $\mathrm{O}_3>\mathrm{O}-\mathrm{O}$ bond length in $\mathrm{O}_2$</div>	db\MarksBatch2_P4.db
2,569	which-of-the-following-statementss-isare-true-internal-energy-of-an-ideal-gas	which-of-the-following-statementss-isare-true-internal-energy-of-an-ideal-gas-67788	<div class="question">Which of the following statements(s) is/are true? "Internal energy of an ideal gas ..........."</div>	['Physics', 'Thermodynamics', 'WBJEE', 'WBJEE 2018']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">decreases in an isothermal process.</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">remains constant in an isothermal process.</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">increases in an isobaric process.</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">decreases in an isobaric expansion.</span> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">remains constant in an isothermal process.</span> </div>	<div class="solution">$\because$ Internal energy of an ideal gas depends only on the temperature of gas. <br/>$$ <br/>E_{\text {in }} \propto T <br/>$$</div>	db\MarksBatch2_P4.db
2,570	which-of-the-following-thermodynamic-relation-is-correct	which-of-the-following-thermodynamic-relation-is-correct-80766	<div class="question">Which of the following thermodynamic relation is correct?</div>	['Chemistry', 'Thermodynamics (C)', 'WBJEE', 'WBJEE 2010']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">$\mathrm{dG}=\mathrm{VdP}-\mathrm{SdT}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\mathrm{dE}=\mathrm{PdV}+\mathrm{TdS}$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\mathrm{dH}=-\mathrm{VdP}+\mathrm{TdS}$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$\mathrm{dG}=\mathrm{VdP}+\mathrm{SdT}$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\mathrm{dG}=\mathrm{VdP}-\mathrm{SdT}$</span> </div>	<div class="solution">$$<br/>\text { Hints: } \begin{gathered}<br/>\mathrm{dG}=\mathrm{dH}-\mathrm{TdS}-\mathrm{SdT}(\text { as } \mathrm{G}=\mathrm{H}-\mathrm{TS} \text { ) } \\<br/>\text { again, } \mathrm{H}=\mathrm{U}+\mathrm{PV} \\<br/>\therefore \mathrm{dH}=\mathrm{dU}+\mathrm{PdV}+\mathrm{VdP} \\<br/>\& \mathrm{dU}=\mathrm{TdS}-\mathrm{PdV}<br/>\end{gathered}<br/>$$<br/>Thus $d G=(T d S-P d V)+P d V+V d P-T d S-S d T$<br/>$$<br/>=\mathrm{VdP}-\mathrm{SdT}<br/>$$</div>	db\MarksBatch2_P4.db
2,571	which-of-the-following-will-be-dehydrated-most-readily-in-alkaline-medium	which-of-the-following-will-be-dehydrated-most-readily-in-alkaline-medium-76859	<div class="question">Which of the following will be dehydrated most readily in alkaline medium?</div>	['Chemistry', 'Alcohols Phenols and Ethers', 'WBJEE', 'WBJEE 2016']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_q4_opta.png"/></span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_q4_optb.png"/></span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_q4_optc.png"/></span> </li><li class=""> <span class="option-label">D</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_q4_optd.png"/></span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_q4_optb.png"/></span> </div>	<div class="solution"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_a4.png"/> <br/> <br/>In alkaline medium the acidic proton present in the molecule is abstracted to give enolate ion. In the next step hydroxide ion if present at $\beta$ -position leaves giving $\alpha-\beta$ unsaturated carbonyl compound. In (a), (c) and <br/>(d), dehydration cannot take place due to improper placement of groups.</div>	db\MarksBatch2_P4.db
2,572	which-of-the-following-will-decrease-the-ph-of-a-50-ml-solution-of-001-m-hcl	which-of-the-following-will-decrease-the-ph-of-a-50-ml-solution-of-001-m-hcl-68738	<div class="question">Which of the following will decrease the $\mathrm{pH}$ of a $50 \mathrm{ml}$ solution of $0.01 \mathrm{M} \mathrm{HCl}$ ?</div>	['Chemistry', 'Some Basic Concepts of Chemistry', 'WBJEE', 'WBJEE 2009']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">addition of $5 \mathrm{ml}$ of $1 \mathrm{M} \mathrm{HCl}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">addition of $50 \mathrm{ml}$ of $0.01 \mathrm{M} \mathrm{HCl}$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">addition of $50 \mathrm{ml}$ of $0.002 \mathrm{M} \mathrm{HCl}$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">addition of Mg</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">addition of $5 \mathrm{ml}$ of $1 \mathrm{M} \mathrm{HCl}$</span> </div>	<div class="solution">$50 \mathrm{ml} 0.01 \mathrm{M} \equiv 50 \times 0.01=0.5$ millimole<br/>$\quad 5 \mathrm{ml} 1(\mathrm{M}) \equiv 5 \times 1=5$ millimole<br/>$\quad$ Total millimoles $=5.5$ millimole<br/>Total volume $=55 \mathrm{ml}$.<br/>Molarity $=\frac{5.5}{55}=0.1(\mathrm{M})=10^{-1}(\mathrm{M})$<br/>$\mathrm{pH}=1$</div>	db\MarksBatch2_P4.db
2,573	which-of-the-following-will-show-a-negative-deviation-from-raoults-law	which-of-the-following-will-show-a-negative-deviation-from-raoults-law-53414	<div class="question">Which of the following will show a negative deviation from Raoult's law?</div>	['Chemistry', 'Solutions', 'WBJEE', 'WBJEE 2012']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">Acetone-benzene</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Acetone-ethanol</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">Benzene-methanol</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">Acetone-chloroform</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Acetone-chloroform</span> </div>	<div class="solution"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2012_che_a12.png"/> <br/> <br/>Acetone and chloroform will show a negative deviation due to their association after mixing.</div>	db\MarksBatch2_P4.db
2,574	which-of-the-following-would-give-a-linear-plot-k-is-the-rate-constant-of-an-elementary-reaction-and-mathrmt-is-temp-in-absolute-scale	which-of-the-following-would-give-a-linear-plot-k-is-the-rate-constant-of-an-elementary-reaction-and-mathrmt-is-temp-in-absolute-scale-89216	<div class="question">Which of the following would give a linear plot?<br/>($k$ is the rate constant of an elementary reaction and $\mathrm{T}$ is temp. in absolute scale)</div>	['Chemistry', 'Chemical Kinetics', 'WBJEE', 'WBJEE 2023']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">k vs T</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\mathrm{k~vs~} 1 / \mathrm{T}$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">In k vs T</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">$\ln \mathrm{k~vs~} 1 / \mathrm{T}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\ln \mathrm{k~vs~} 1 / \mathrm{T}$</span> </div>	<div class="solution">Hint : Arrhenius equation gives us<br/>$\begin{aligned}<br/>& k=A e^{-E_a / R T} \\<br/>& \ln k=\ln A-\frac{E_a}{R}\left(\frac{1}{T}\right) \\<br/>& y=c-m x<br/>\end{aligned}$<br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/uaDHSG4eZLgawC5sO8i_71PIbxQlDhol3AJMYWYr8tw.original.fullsize.png"/><br/></div>	db\MarksBatch2_P4.db
2,575	which-of-the-following-would-produce-enantiomeric-products-when-reacted-with-methyl-magnesium-iodide	which-of-the-following-would-produce-enantiomeric-products-when-reacted-with-methyl-magnesium-iodide-59272	<div class="question">Which of the following would produce enantiomeric products when reacted with methyl magnesium iodide?</div>	['Chemistry', 'Aldehydes and Ketones', 'WBJEE', 'WBJEE 2022']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">Benzaldehyde</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">Propiophenone</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">Acetone</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Acetaldehyde</span> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">Benzaldehyde, Propiophenone</span> </div>	<div class="solution"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/d6twIX42yRtkCrTZhOdM7EI5uVQ9Wvoix4nI5AZyAuc.original.fullsize.png"/><br/><br/>When $\mathrm{R}$ and $\mathrm{R}^{\prime}$ are different and none of them is methyl, we will get enantiomeric product.<img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/ZNbYt1zqGbPKxoBV8SmBgVBM-Jk1AUj6dqR0vsnghDU.original.fullsize.png"/></div>	db\MarksBatch2_P4.db
2,576	which-of-the-set-of-oxides-are-arranged-in-the-order-of-proper-basic-amphoteric-acidic	which-of-the-set-of-oxides-are-arranged-in-the-order-of-proper-basic-amphoteric-acidic-25005	<div class="question">Which of the set of oxides are arranged in the order of proper basic, amphoteric, acidic?</div>	['Chemistry', 'p Block Elements (Group 13 & 14)', 'WBJEE', 'WBJEE 2018']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\mathrm{SO}_{2}, \mathrm{P}_{2} \mathrm{O}_{5}, \mathrm{CO}$</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">$\mathrm{BaO}, \mathrm{Al}_{2} \mathrm{O}_{3} \cdot \mathrm{SO}_{2}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\mathrm{CaO} . \mathrm{SiO}_{2}, \mathrm{Al}_{2} \mathrm{O}_{3}$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$\mathrm{CO}_{2}, \mathrm{Al}_{2} \mathrm{O}_{3}, \mathrm{CO}$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\mathrm{BaO}, \mathrm{Al}_{2} \mathrm{O}_{3} \cdot \mathrm{SO}_{2}$</span> </div>	<div class="solution">The correct set of oxides arranged in the proper order of basic, amphoteric, acidic are $\mathrm{BaO}, \mathrm{Al}_{2} \mathrm{O}_{3}, \mathrm{SO}_{2}$ <br/>Oxides of non-metallic elements are acidic such $\mathrm{CO}_{2} \mathrm{NO}_{2}, \mathrm{SO}_{2}$ etc. Oxides of less electropositive elements (such as BeO, $A l_{2} O_{3}, B i_{2} O_{3}$, ZnO etc.) are amphoteric i.e. these behaves as acids toward strong bases and as bases towards strong acids. Oxides of elcctropositive elements $\left(\mathrm{Na}_{2} \mathrm{O}, \mathrm{CaO}, \mathrm{T}_{2} \mathrm{O}, \quad \mathrm{Ba} 0\right.$ <br/>etc.) are basic and contain discrete $\mathrm{O}^{2-}$ ions.</div>	db\MarksBatch2_P4.db
2,577	which-of-the-statements-are-incorrect	which-of-the-statements-are-incorrect-46943	<div class="question">Which of the statements are incorrect?</div>	['Chemistry', 'Ionic Equilibrium', 'WBJEE', 'WBJEE 2022']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\mathrm{pH}$ of a solution of salt of strong acid and weak base is less than 7 .</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">$\mathrm{pH}$ of a solution of a weak acid and weak base is basic if $\mathrm{K}_{\mathrm{b}} < \mathrm{K}_{\mathrm{a}}$.</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">$\mathrm{pH}$ of an aqueous solution of $10^{-8}(\mathrm{M}) \mathrm{HCl}$ is 8 .</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Conjugate acid of $\mathrm{NH}_2^{-}$is $\mathrm{NH}_3$.</span> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">$\mathrm{pH}$ of a solution of a weak acid and weak base is basic if $\mathrm{K}_{\mathrm{b}} < \mathrm{K}_{\mathrm{a}}$., $\mathrm{pH}$ of an aqueous solution of $10^{-8}(\mathrm{M}) \mathrm{HCl}$ is 8 .</span> </div>	<div class="solution">* $\mathrm{pH}$ of a solution of strong acid and weak base $\left(\right.$ say $\left.\mathrm{NH}_4 \mathrm{Cl}\right)$ is less than $7 .$<br/>* For hydrolysis of salt of weak acid and weak base.<br/>When $\mathrm{K}_{\mathrm{a}}>\mathrm{K}_{\mathrm{b}}, \quad \mathrm{pH} < 7$<br/>* $\mathrm{pH}$ of $10^{-8} \mathrm{M} \mathrm{HCl}(\mathrm{aq})$ will be less than 7 .<br/>* Conjugate acid of $\mathrm{NH}_2^{-}$is $\mathrm{NH}_3$. This is a true statement.</div>	db\MarksBatch2_P4.db
2,578	which-of-these-species-will-have-nonzero-magnetic-moment	which-of-these-species-will-have-nonzero-magnetic-moment-25712	<div class="question">Which of these species will have non-zero magnetic moment?</div>	['Chemistry', 'Structure of Atom', 'WBJEE', 'WBJEE 2019']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\mathrm{Na}^{+}$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Mg</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$F^{-}$</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">$A r^{+}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$A r^{+}$</span> </div>	<div class="solution">Key point The species which has one or more unpaired electrons have non-zero magnetic moment. <br/>Electronic configuration of <br/>$$ <br/>\begin{array}{l} <br/>\mathrm{Na}^{+}(Z=11)=1 \mathrm{s}^{2} 2 \mathrm{s}^{2} 2 p^{6} \\ <br/>\mathrm{Mg}(Z=12)=1 \mathrm{s}^{2} 2 \mathrm{s}^{2} 2 p^{6} 3 \mathrm{s}^{2} \\ <br/>\mathrm{F}^{-}(Z=9)=1 \mathrm{s}^{2} 2 s^{2} 2 p^{6} \\ <br/>\quad \mathrm{Ar}^{+}(Z=18)=1 \mathrm{s}^{2} 2 \mathrm{s}^{2} 2 p^{6} 3 \mathrm{s}^{2} 3 p^{5} <br/>\end{array} <br/>$$ <br/>As, Ar $^{+}$ has an unpaired electron, it has non-zero magnetic moment. Hence, (d) is the correct option.</div>	db\MarksBatch2_P4.db
2,579	which-one-is-not-a-constituent-of-nucleic-acid	which-one-is-not-a-constituent-of-nucleic-acid-12439	<div class="question">Which one is not a constituent of nucleic acid?</div>	['Chemistry', 'Biomolecules', 'WBJEE', 'WBJEE 2011']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">Uracil</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">Guanidine</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">Phosphoric acid</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Ribose sugar</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Guanidine</span> </div>	<div class="solution">Hints: Guanine is the constituent of nucleic acid and not guanidine.</div>	db\MarksBatch2_P4.db
2,580	which-one-of-the-following-characteristics-belongs-to-an-electrophile	which-one-of-the-following-characteristics-belongs-to-an-electrophile-82187	<div class="question">Which one of the following characteristics belongs to an electrophile?</div>	['Chemistry', 'General Organic Chemistry', 'WBJEE', 'WBJEE 2012']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">It is any species having electron deficiency which reacts at an electron rich C-centre</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">It is any species having electron enrichment, that reacts at an electron deficient C-centre</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">It is cationic in nature</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">It is anionic in nature</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">It is any species having electron deficiency which reacts at an electron rich C-centre</span> </div>	<div class="solution">Electrophiles are electron deficient species (neutral or cationic). They attack on electron rich C-atom.</div>	db\MarksBatch2_P4.db
2,581	which-one-of-the-following-contains-p-o-p-bond	which-one-of-the-following-contains-p-o-p-bond-31598	<div class="question">Which one of the following contains $\mathrm{P}-\mathrm{O}-\mathrm{P}$ bond ?</div>	['Chemistry', 'p Block Elements (Group 15, 16, 17 & 18)', 'WBJEE', 'WBJEE 2010']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">Hypophosphorus acid</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Phosphorus acid</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">Pyrophosphoric acid</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Orthophosphoric acid</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Pyrophosphoric acid</span> </div>	<div class="solution">Hints: <img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/S6cnbeqX3j70kwMnAOQi0gyqnwlI_BCzf4-Y3nPC0RQ.original.fullsize.png"/><br/></div>	db\MarksBatch2_P4.db
2,582	which-one-of-the-following-corresponds-to-a-photon-of-highest-energy	which-one-of-the-following-corresponds-to-a-photon-of-highest-energy-23423	<div class="question">Which one of the following corresponds to a photon of highest energy?</div>	['Chemistry', 'Structure of Atom', 'WBJEE', 'WBJEE 2017']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">$\lambda=300 \mathrm{mm}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$v=3 \times 10^{4} \mathrm{s}^{-1}$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\bar{v}=30 \mathrm{cm}^{-1}$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$\varepsilon=6.626 \times 10^{-27} \mathrm{J}$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\lambda=300 \mathrm{mm}$</span> </div>	<div class="solution">$\because E=h v=\frac{h c}{\lambda}=h c \cdot \bar{v} \quad\left(\because \frac{1}{\lambda}=\bar{v}\right)$ <br/>where $E=$ energy of photon <br/>$c=$ velocity of photon (-light) <br/>$\lambda=$ wavelength of photon <br/>$h=$ plank's constant. <br/>$\therefore$ For $(\mathrm{a})$ <br/>$E=6.63 \times 10^{-34} \times 3 \times 10^{4} / 300 \times 10^{-9}$ <br/>$E=1.98 \times 10^{-25} \cdot \mathrm{J} / 300 \times 10^{-9}$ <br/>$\therefore \quad E=\frac{1.98 \times 10^{-2} \mathrm{J}}{300 \times 10^{-9} \mathrm{m}}$ <br/>$(a) \rightarrow E=6.6 \times 10^{-19} \mathrm{J}$ <br/>For (b) $E=h v=6.63 \times 10^{-34} \times 3 \times 10^{4}$ <br/>$(b) \rightarrow E=1.98 \times 10^{-35} \mathrm{J}$ <br/>For (c) $E=h c \times v$ <br/>$\because \frac{1}{3}$ <br/>$$ <br/>E=6.63 \times 10^{-4} \times 3 \times 10^{*} \times 30 \times 10^{2} <br/>$$ <br/>(c) $\Rightarrow E=5.96 \times 10^{\circ}$ <br/>For $(d) d \rightarrow E=6.62 \times 10^{-27} J$ <br/>Hence, highest energy for photon is in (a).</div>	db\MarksBatch2_P4.db
2,583	which-one-of-the-following-electronic-arrangements-is-absurd-1	which-one-of-the-following-electronic-arrangements-is-absurd-1-32465	<div class="question">Which one of the following electronic arrangements is absurd?</div>	['Chemistry', 'Structure of Atom', 'JEE Main']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$n=3, l=1, m=-1$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$n=3, l=0, m=0$</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">$n=2,l=0, m=-1$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$n=2, l=1, m=0$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$n=2,l=0, m=-1$</span> </div>	<div class="solution">The three quantum numbers $n, l$ and $m$ that describe an orbital has integer values of 0,1,2,3 and so on. <br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2019_che_a53.png"/> <br/>The electronic arrangement of option (c) is absurd because <br/>$$ <br/>\begin{array}{l} <br/>n=2 \\ <br/>l=0 \\ <br/>m=0 <br/>\end{array} <br/>$$ <br/>To sum up, where $n=2, l=0, m=0$ Hence, for $l=0,$ value of $m$ should be zero.</div>	db\MarksBatch2_P4.db
2,584	which-one-of-the-following-electronic-arrangements-is-absurd	which-one-of-the-following-electronic-arrangements-is-absurd-29258	<div class="question">Which one of the following electronic arrangements is absurd?</div>	['Chemistry', 'Structure of Atom', 'WBJEE', 'WBJEE 2019']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$n=3, l=1, m=-1$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$n=3, l=0, m=0$</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">$n=2,l=0, m=-1$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$n=2, l=1, m=0$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$n=2,l=0, m=-1$</span> </div>	<div class="solution">The three quantum numbers $n, l$ and $m$ that describe an orbital has integer values of 0,1,2,3 and so on. <br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2019_che_a53.png"/> <br/>The electronic arrangement of option (c) is absurd because <br/>$$ <br/>\begin{array}{l} <br/>n=2 \\ <br/>l=0 \\ <br/>m=0 <br/>\end{array} <br/>$$ <br/>To sum up, where $n=2, l=0, m=0$ Hence, for $l=0,$ value of $m$ should be zero.</div>	db\MarksBatch2_P4.db
2,585	which-one-of-the-following-formulae-does-not-represent-an-organic-compound	which-one-of-the-following-formulae-does-not-represent-an-organic-compound-40952	<div class="question">Which one of the following formulae does not represent an organic compound?</div>	['Chemistry', 'General Organic Chemistry', 'WBJEE', 'WBJEE 2009']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\mathrm{C}_4 \mathrm{H}_{10} \mathrm{O}_4$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\mathrm{C}_4 \mathrm{H}_8 \mathrm{O}_4$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\mathrm{C}_4 \mathrm{H}_7 \mathrm{ClO}_4$</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">$\mathrm{C}_4 \mathrm{H}_9 \mathrm{O}_4$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\mathrm{C}_4 \mathrm{H}_9 \mathrm{O}_4$</span> </div>	<div class="solution">Unsaturation factor $=0,1,1,0.5 \quad$ Hence $(D)$</div>	db\MarksBatch2_P4.db
2,586	which-one-of-the-following-has-the-lowest-ionization-energy	which-one-of-the-following-has-the-lowest-ionization-energy-48481	<div class="question">Which one of the following has the lowest ionization energy?</div>	['Chemistry', 'Classification of Elements and Periodicity in Properties', 'WBJEE', 'WBJEE 2011']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$1 s^2 2 s^2 2 p^6$</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">$1 \mathrm{~s}^2 2 \mathrm{~s}^2 2 \mathrm{p}^6 3 \mathrm{~s}^1$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$1 \mathrm{~s}^2 2 \mathrm{~s}^2 2 \mathrm{p}^5$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$1 \mathrm{~s}^2 2 \mathrm{~s}^2 2 \mathrm{p}^3$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$1 \mathrm{~s}^2 2 \mathrm{~s}^2 2 \mathrm{p}^6 3 \mathrm{~s}^1$</span> </div>	<div class="solution">Hints: It's an alkalimetal; hence least I.P</div>	db\MarksBatch2_P4.db
2,587	which-one-of-the-following-is-a-condensation-polymer	which-one-of-the-following-is-a-condensation-polymer-58715	<div class="question">Which one of the following is a condensation polymer?</div>	['Chemistry', 'Polymers', 'WBJEE', 'WBJEE 2018']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">PVC</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Teflon</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">Dacron</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Polystyrene</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Dacron</span> </div>	<div class="solution">Dacron is a condensation polymer. It is also known as terylene. It is a polymer obtained by condensation reaction between ethylene glycol and terephthalic acid at $420-460 \mathrm{K}$ in the presence of zinc acetate-antimony trioxide catalyst. <br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2018_che_a65.png"/></div>	db\MarksBatch2_P4.db
2,588	which-one-of-the-following-is-an-example-of-copolymer	which-one-of-the-following-is-an-example-of-copolymer-15161	<div class="question">Which one of the following is an example of co-polymer?</div>	['Chemistry', 'Polymers', 'WBJEE', 'WBJEE 2010']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">Buna-S</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Teflon</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">PVC</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Polypropylene</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Buna-S</span> </div>	<div class="solution">Hints : Buna -S is a co-polymer of butadiene and styrene<br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/tvD_KTjB-e45OrZWWi29dZjyx1emA0-uiPmtudBxlts.original.fullsize.png"/><br/></div>	db\MarksBatch2_P4.db
2,589	which-one-of-the-following-is-called-a-carbylamine	which-one-of-the-following-is-called-a-carbylamine-44533	<div class="question">Which one of the following is called a carbylamine?</div>	['Chemistry', 'Amines', 'WBJEE', 'WBJEE 2009']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\mathrm{RCN}$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\mathrm{RCONH}_2$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\mathrm{R}-\mathrm{CH}=\mathrm{NH}$</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">R NC</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">R NC</span> </div>	<div class="solution">No Solution Available</div>	db\MarksBatch2_P4.db
2,590	which-one-of-the-following-is-not-true-at-room-temperature-and-pressure	which-one-of-the-following-is-not-true-at-room-temperature-and-pressure-22698	<div class="question">Which one of the following is not true at room temperature and pressure</div>	['Chemistry', 'p Block Elements (Group 15, 16, 17 & 18)', 'WBJEE', 'WBJEE 2011']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\mathrm{P}_4 \mathrm{O}_{10}$ is a white solid</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\mathrm{SO}_2$ is a coloureless gas</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">$\mathrm{SO}_3$ is a colourless gas</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$\mathrm{NO}_2$ is a brown gas</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\mathrm{SO}_3$ is a colourless gas</span> </div>	<div class="solution">Hints: $\mathrm{SO}_3$ is colorless, crystalline transparent solid at room temperature.</div>	db\MarksBatch2_P4.db
2,591	which-one-of-the-following-is-paramagnetic	which-one-of-the-following-is-paramagnetic-35424	<div class="question">Which one of the following is paramagnetic?</div>	['Chemistry', 'Chemical Bonding and Molecular Structure', 'WBJEE', 'WBJEE 2011']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\mathrm{N}_2$</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">$\mathrm{NO}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\mathrm{CO}$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$\mathrm{O}_3$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\mathrm{NO}$</span> </div>	<div class="solution">Hints: <img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/ckWX39wcoN7Dfvc9LHW4X_II6XWeEGAfPNSIq3qef2k.original.fullsize.png"/><br/>, Valence electron $=11$</div>	db\MarksBatch2_P4.db
2,592	which-one-of-the-following-is-sbutyl-phynylvinyl-methane	which-one-of-the-following-is-sbutyl-phynylvinyl-methane-75277	<div class="question">Which one of the following is s-butyl phynylvinyl methane?</div>	['Chemistry', 'General Organic Chemistry', 'WBJEE', 'WBJEE 2011']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/RHK4Q9URcP5szy1JvF3B2x-OZeb9e0BBRBSaoPziQOk.original.fullsize.png"/><br/></span> </li><li class=""> <span class="option-label">B</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/DeeUEYYnd_ld3RhiRvT4I_WBi42S53zQbo1m8CEBLB0.original.fullsize.png"/><br/></span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/pqp1OWG4XhBqG_TSjtXJaxMTFoCDNpY-vcb6-zr6CVU.original.fullsize.png"/><br/></span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/ayJOqvBZ8YbAlXhCLFcXOKPlbTM37KQu-cLUyKK88Xg.original.fullsize.png"/><br/></span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/pqp1OWG4XhBqG_TSjtXJaxMTFoCDNpY-vcb6-zr6CVU.original.fullsize.png"/><br/></span> </div>	<div class="solution">Hints: <img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/mOUU5j_sw2rzMMaGQ9NHveB7RZIHAiMgxVk3jSu_SDY.original.fullsize.png"/><br/></div>	db\MarksBatch2_P4.db
2,593	which-one-of-the-following-is-the-correct-set-of-four-quantum-numbers-n-l-m-s	which-one-of-the-following-is-the-correct-set-of-four-quantum-numbers-n-l-m-s-55542	<div class="question">Which one of the following is the correct set of four quantum numbers $(n, l, m, s)$ ?</div>	['Chemistry', 'Structure of Atom', 'WBJEE', 'WBJEE 2022']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$\left(3,0,-1,+\frac{1}{2}\right)$</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">$\left(4,3,-2,-\frac{1}{2}\right)$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\left(3,1,-2,-\frac{1}{2}\right)$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$\left(4,2,-3,+\frac{1}{2}\right)$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\left(4,3,-2,-\frac{1}{2}\right)$</span> </div>	<div class="solution">$\mathrm{n}=4, \ell=0,1,2,3$<br/>For $\ell=3, \mathrm{~m}=-3,-2,-1,0,+1,+2,+3$<br/>For $m=-2, s=-\frac{1}{2}$</div>	db\MarksBatch2_P4.db
2,594	which-one-of-the-following-is-wrong-about-molecularity-of-a-reaction	which-one-of-the-following-is-wrong-about-molecularity-of-a-reaction-37178	<div class="question">Which one of the following is wrong about molecularity of a reaction?</div>	['Chemistry', 'Chemical Kinetics', 'WBJEE', 'WBJEE 2012']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">It may be whole number or fractional</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">It is calculated from reaction mechanism</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">It is the number of molecules of the reactants taking part in a single step chemical reaction</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">It is always equal to the order of elementary reaction</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">It may be whole number or fractional</span> </div>	<div class="solution">Molecularity of a reaction can never be fractional. It is always a whole number.</div>	db\MarksBatch2_P4.db
2,595	which-one-of-the-following-methods-is-used-to-prepare-me-3-coet-with-a-good-yield	which-one-of-the-following-methods-is-used-to-prepare-me-3-coet-with-a-good-yield-72293	<div class="question">Which one of the following methods is used to prepare Me $_{3}$ COEt with a good yield?</div>	['Chemistry', 'Alcohols Phenols and Ethers', 'WBJEE', 'WBJEE 2012']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">Mixing EtONa with MegCCl</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">Mixing Me $_{3}$ CONa with EtCl</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">Heating a mixture of $(1 ; 1)$ EtOH and $\mathrm{Me}_{3} \mathrm{COH}$ in the presence of conc. $\mathrm{H}_{2} \mathrm{SO}_{4}$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Treatment of Me_COH with EtMgI</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Mixing Me $_{3}$ CONa with EtCl</span> </div>	<div class="solution">$\mathrm{Me}_{3} \mathrm{CONa} \underset{\left(1^{\circ} \text { alkyl halide) }\right.}{\stackrel{\mathrm{EtCl}}{\longrightarrow}} \mathrm{Me}_{3} \mathrm{COEt}$ <br/>This reaction is known as Williamson's synthesis. <br/>So, the correct option is B</div>	db\MarksBatch2_P4.db
2,596	which-one-of-the-following-produced-when-acet-one-is-saturated-with-hcl-gas	which-one-of-the-following-produced-when-acet-one-is-saturated-with-hcl-gas-99250	<div class="question">Which one of the following produced when acet one is saturated with $\mathrm{HCl}$ gas?</div>	['Chemistry', 'Aldehydes and Ketones', 'WBJEE', 'WBJEE 2010']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">Acetone alcohol</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Phorone</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">Mesityl oxide</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Benzene</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Mesityl oxide</span> </div>	<div class="solution">Hints: <img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/NASenRgN8kckQcyTJ4ruUWZgEAlV8__Y-AodIUTWgac.original.fullsize.png"/><br/><br/>[Note : Phorone is formed as minor product].</div>	db\MarksBatch2_P4.db
2,597	which-one-of-the-following-properties-is-exhibited-by-phenol	which-one-of-the-following-properties-is-exhibited-by-phenol-78022	<div class="question">Which one of the following properties is exhibited by phenol?</div>	['Chemistry', 'Alcohols Phenols and Ethers', 'WBJEE', 'WBJEE 2012']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">It is soluble in aq. $\mathrm{NaOH}$ and evolves $\mathrm{CO}_{2}$ with aq. $\mathrm{NaHCO}_{3}$</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">It is soluble in aq. NaOH and does not evolve $\mathrm{CO}_{2}$ withe aq. $\mathrm{NaHCO}_{3}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">It is not soluble in aq. NaOH but evolves $\mathrm{CO}_{2}$ with aq. $\mathrm{NaHCO}_{3}$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">It is insoluble in aq. NaOH and does not evolve $\mathrm{CO}_{2}$ with aq. $\mathrm{NaHCO}_{3}$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">It is soluble in aq. NaOH and does not evolve $\mathrm{CO}_{2}$ withe aq. $\mathrm{NaHCO}_{3}$</span> </div>	<div class="solution">Phenol is a weak acid. It reacts with $\mathrm{NaOH}$ to produce salt. <br/>$$ <br/>\begin{array}{r} <br/>\mathrm{C}_{6} \mathrm{H}_{5} \mathrm{OH}+\mathrm{NaOH} \longrightarrow \\ <br/>\qquad \begin{aligned} <br/>\mathrm{C}_{6} \mathrm{H}_{5} \mathrm{ONa} \\ <br/>\text { sodium phenoxide } <br/>\end{aligned}+\mathrm{H}_{2} \mathrm{O} <br/>\end{array} <br/>$$ <br/>But it is not sufficiently acidic to evolve $\mathrm{CO}_{2}$ from NaHCO $_{3}$ solution.</div>	db\MarksBatch2_P4.db
2,598	which-one-of-the-following-solutions-will-have-highest-conductivity	which-one-of-the-following-solutions-will-have-highest-conductivity-45813	<div class="question">Which one of the following solutions will have highest conductivity?</div>	['Chemistry', 'Ionic Equilibrium', 'WBJEE', 'WBJEE 2021']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$0.1 \mathrm{M} \quad \mathrm{CH}_{3} \mathrm{COOH}$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$0.1 \mathrm{M} \quad \mathrm{NaCl}$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$0.1 \mathrm{M} \quad \mathrm{KNO}_{3}$</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">$0.1 \mathrm{M} \quad \mathrm{HCl}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$0.1 \mathrm{M} \quad \mathrm{HCl}$</span> </div>	<div class="solution">$\mathrm{HCl}$ and $\mathrm{KNO}_{3}$ both are strong electrolyte but $\mathrm{HCl}$ have aqueous component $\mathrm{H}^{+}$, which has highest conductivity. $\therefore \mathrm{HCl}$ will have highest conductivity.</div>	db\MarksBatch2_P4.db
2,599	which-one-of-the-following-will-show-optical-isomerism	which-one-of-the-following-will-show-optical-isomerism-53055	<div class="question">Which one of the following will show optical isomerism?</div>	['Chemistry', 'General Organic Chemistry', 'WBJEE', 'WBJEE 2011']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/j1HxGWPHlEv51IFnYewB3OuYcGZC9dmoI_XZmTqCHmg.original.fullsize.png"/><br/></span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/Lbaah7znkUyUPhT8J4cxOkqd1izMz6K5Kr54CM_vNwo.original.fullsize.png"/><br/></span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/i_3kKfwV3kqbQO9PJ7FIxxmUoe5RR-9FzjgKK1rwHsk.original.fullsize.png"/><br/></span> </li><li class=""> <span class="option-label">D</span> <span class="option-data"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/YjKrhVPobDtpYXwoHQV5-cZcYRkKJMXFY5Qoc6dt3ec.original.fullsize.png"/><br/></span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value"><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/Lbaah7znkUyUPhT8J4cxOkqd1izMz6K5Kr54CM_vNwo.original.fullsize.png"/><br/></span> </div>	<div class="solution">Hints : The central carbon is attached to four different substituents, hence it is chiral carbon, therefore optically active.</div>	db\MarksBatch2_P4.db
2,600	which-statement-is-incorrect-4	which-statement-is-incorrect-4-11536	<div class="question">Which statement is incorrect</div>	['Chemistry', 'Alcohols Phenols and Ethers', 'WBJEE', 'WBJEE 2009']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">Phenol is a weak acid</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Phenol is an aromatic compound</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">Phenol liberates $\mathrm{CO}_2$ from $\mathrm{Na}_2 \mathrm{CO}_3$ soln</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Phenol is soluble in $\mathrm{NaOH}$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Phenol liberates $\mathrm{CO}_2$ from $\mathrm{Na}_2 \mathrm{CO}_3$ soln</span> </div>	<div class="solution">Phenol does not liberate $\mathrm{CO}_2$ from $\mathrm{Na}_2 \mathrm{CO}_3$ solution<br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/ZylAfVdMQnMBE7GPTgZndfcBRR90Ah5UnlwW2sYAHjU.original.fullsize.png"/><br/></div>	db\MarksBatch2_P4.db
2,601	which-statement-is-not-correct-for-ortho-and-para-hydrogen	which-statement-is-not-correct-for-ortho-and-para-hydrogen-74894	<div class="question">Which statement is not correct for ortho and para hydrogen?</div>	['Chemistry', 'Hydrogen', 'WBJEE', 'WBJEE 2016']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">They have different boiling points</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">Ortho-form is more stable than para-form</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">They differ in their nuclear spin</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">The ratio of ortho to para hydrogen changes with change in temperature</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">Ortho-form is more stable than para-form</span> </div>	<div class="solution">(i) Ortho and para hydrogens have difterent nuclear spin. In $\mathrm{H}_{2}$ molecule, two protons in two H atoms with pare spin are called ortho-hydrogen <br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2016_che_a13.png"/> <br/> <br/>(ii) Ortho-hydrogen is more stable than para form at and above room temperature only, therefore para form always tends to revert in ortho-form. Thus, not correct. <br/>(iii) The per cent composition of ortho and para changes with the lemperature. Thus, their ratio also change. <br/>(iv) They have slightly different boling point. <br/>Hence, (b) is the answer.</div>	db\MarksBatch2_P4.db
2,602	which-statements-are-correct-for-the-peroxide-ion	which-statements-are-correct-for-the-peroxide-ion-44473	<div class="question">Which statements are correct for the <br/>peroxide ion?</div>	['Chemistry', 'Chemical Bonding and Molecular Structure', 'WBJEE', 'WBJEE 2018']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">It has five completely filled anti-bonding molecular orbitals</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">It is diamagnetic</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">It has bond order one</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">D</span> <span class="option-data">It is isoelectronic with neon</span> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">It is diamagnetic, It has bond order one</span> </div>	<div class="solution">The correct statements for peroxide ion $\left(\mathrm{O}_{2}^{2-}\right)$ are that it is diamagnetic and it has bond <br/>order one. Electronic configuration of $\mathrm{O}_{2}^{2-}$ (peroxide ion) is <br/>$\sigma \mathrm{l} s^{2}, \sigma^{} 1 s^{2}, \sigma 2 s^{2}, \sigma^{} 2 s^{2}, \sigma 2 p_{z}^{2},\left[\pi 2 p_{x}^{2}=\pi 2 p_{y}^{2}\right\}$ <br/>$$ <br/>\left[\pi^{\prime} 2 p_{x}^{2}=\pi^{} 2 p_{y}^{2}\right], \sigma^{} 2 p_{t}^{0} <br/>$$ <br/>$\because$ Bond order $=$ No. of electrons present in bonding No. of electrons present in non - bonding <br/>$\therefore \quad B O=\frac{10-8}{2}=\frac{2}{2}=1$ <br/>Number of unpaired electrons $=0$ <br/>$\mathrm{So}, \mathrm{O}_{2}^{2-}$ is diamagnetic in nature.</div>	db\MarksBatch2_P4.db
2,603	which-statements-isare-applicable-above-critical-temperature	which-statements-isare-applicable-above-critical-temperature-87731	<div class="question">Which statement(s) is/are applicable above critical temperature?</div>	['Chemistry', 'States of Matter', 'WBJEE', 'WBJEE 2023']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">A gas cannot be liquified</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">Surface tension of a liquid is very high</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">A liq. phase cannot be distinguished from a gas phase</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">Density changes continuously with $\mathrm{P}$ or $\mathrm{V}$</span> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">A gas cannot be liquified</span> </div>	<div class="solution">Hint : Gas cannot be liquified above critical temperature (fact.)</div>	db\MarksBatch2_P4.db
2,604	which-structure-has-delocalised-electrons	which-structure-has-delocalised-electrons-16959	<div class="question">Which structure has delocalised $\pi$-electrons?</div>	['Chemistry', 'Chemical Bonding and Molecular Structure', 'WBJEE', 'WBJEE 2021']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">$\mathrm{O}_{3}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\mathrm{CO}$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$\mathrm{HCN}$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$\mathrm{O}_{3}$ and $\mathrm{HCN}$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$\mathrm{O}_{3}$</span> </div>	<div class="solution">$\mathrm{O}_{3}$ (ozone) has delocalised $\pi$ electrons <br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/esi8kaqFa3v6FSYNuZ8Ihag_byh8xDYlHGoj3MXKIEU.original.fullsize.png"/></div>	db\MarksBatch2_P4.db
2,605	which-type-of-gate-the-following-truth-table-represents	which-type-of-gate-the-following-truth-table-represents-13084	<div class="question">Which type of Gate the following truth table represents?<br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/_yoSzEFxFoRM6XldeZxIAE3vMVrHZ4bN9rhnp2pP8bA.original.fullsize.png"/><br/></div>	['Physics', 'Semiconductors', 'WBJEE', 'WBJEE 2011']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">NOT</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$\mathrm{AND}$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">OR</span> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">NAND</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">NAND</span> </div>	<div class="solution">Hints: <img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/1o5kZcf1F_Hk1Tt8UCqZU6iXrq6cB-JQRWR0nD9TNIk.original.fullsize.png"/><br/></div>	db\MarksBatch2_P4.db
2,606	whichever-of-the-following-isare-correct	whichever-of-the-following-isare-correct-33477	<div class="question">Whichever of the following is/are correct?</div>	['Mathematics', 'Definite Integration', 'WBJEE', 'WBJEE 2021']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">To evaluate $I_{1}=\int_{-2}^{2} \frac{d x}{4+x^{2}}$, it is possible to put $x=\frac{1}{t}$</span> </li><li class=""> <span class="option-label">B</span> <span class="option-data">To evaluate $I_{2}=\int_{0}^{1} \sqrt{\left(x^{2}+1\right)} d x$, it is possible to put $x=\sec t$</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">To evaluate $I_{2}=\int_{0}^{1} \sqrt{\left(x^{2}+1\right)} \mathrm{dx}$, it is not possible to put $x=\operatorname{cosec} \theta$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">To evaluate $\mathrm{I}_{1}$, it is not possible to put $\mathrm{x}=\frac{1}{\mathrm{t}}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">To evaluate $I_{2}=\int_{0}^{1} \sqrt{\left(x^{2}+1\right)} \mathrm{dx}$, it is not possible to put $x=\operatorname{cosec} \theta$, To evaluate $\mathrm{I}_{1}$, it is not possible to put $\mathrm{x}=\frac{1}{\mathrm{t}}$</span> </div>	<div class="solution">$\mathrm{I}_{1}=\int_{-2}^{2} \frac{\mathrm{dx}}{4+\mathrm{x}^{2}}=2 \int_{0}^{2} \frac{\mathrm{dx}}{4+\mathrm{x}^{2}}>0$ <br/>By <br/>$\mathrm{x}=1 / \mathrm{t}, \quad \mathrm{I}_{1}=\int_{-1 / 2}^{1 / 2} \frac{-\mathrm{dt}}{4 \mathrm{t}^{2}+1} < 0$ <br/>So not possible <br/>$\mathrm{I}_{2}=\int_{0}^{1} \sqrt{\mathrm{x}^{2}+1} \mathrm{dx}, \mathrm{x}=\operatorname{cosec} \theta$ <br/>Since $x \in(0,1)$ and $\operatorname{cosec} \theta \in(-\infty,-1] \cup[1, \infty)$ <br/>So not possible</div>	db\MarksBatch2_P4.db
2,607	white-phosphorous-p-4-has-the-following-characteristics	white-phosphorous-p-4-has-the-following-characteristics-36775	<div class="question">White phosphorous $P_{4}$ has the following <br/>characteristics</div>	['Chemistry', 'p Block Elements (Group 15, 16, 17 & 18)', 'WBJEE', 'WBJEE 2018']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">$6 \mathrm{P}-\mathrm{P}$ single bonds</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$4 \mathrm{P}-\mathrm{P}$ single bonds</span> </li><li class="correct"> <span class="option-label">C</span> <span class="option-data">4 lone pair of electrons</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class="correct"> <span class="option-label">D</span> <span class="option-data">$\mathrm{P}-\mathrm{P}-\mathrm{P}$ angle of $60^{\circ}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">$6 \mathrm{P}-\mathrm{P}$ single bonds, 4 lone pair of electrons, $\mathrm{P}-\mathrm{P}-\mathrm{P}$ angle of $60^{\circ}$</span> </div>	<div class="solution">WHite phosphorus $\left(P_{4}\right)$ has $6 P-P$ single bonds, 4 lone pairs of electrons and $P-P-P$ angle of $60^{\circ} .$ It is a translucent white waxy solid. It has large atomic size and less electronegativity. So, it forms single bond instead of $p \pi$ - $p \pi$ multiple bond. It consists of discrete tetrahedral $P_{4}$ molecule as shown in the figure. <br/><img src="https://cdn-question-pool.getmarks.app/pyq/wbjee/2018_che_a80.png"/></div>	db\MarksBatch2_P4.db
2,608	within-the-list-shown-below-the-correct-pair-of-structures-of-alanine-in-ph-ranges-2-4-and-9-11-is-i-h-3-n-ch-ch-3-co-2-h-ii-h-2-n-ch-ch-3-co-2-iii-h-	within-the-list-shown-below-the-correct-pair-of-structures-of-alanine-in-ph-ranges-2-4-and-9-11-is-i-h-3-n-ch-ch-3-co-2-h-ii-h-2-n-ch-ch-3-co-2-iii-h-15984	<div class="question">Within the list shown below, the correct pair of structures of alanine in $\mathrm{pH}$ ranges $2-4$ and $9-11$ is <br/>I. $\mathrm{H}_{3} \mathrm{N}^{+}-\mathrm{CH}\left(\mathrm{CH}_{3}\right) \mathrm{CO}_{2} \mathrm{H}$ <br/>II. $\mathrm{H}_{2} \mathrm{N}-\mathrm{CH}\left(\mathrm{CH}_{3}\right) \mathrm{CO}_{2}^{-}$ <br/>III. $\mathrm{H}_{3} \mathrm{N}^{+}-\mathrm{CH}\left(\mathrm{CH}_{3}\right) \mathrm{CO}_{2}^{-}$ <br/>$\mathrm{IV} . \mathrm{H}_{2} \mathrm{N}-\mathrm{CH}\left(\mathrm{CH}_{3}\right) \mathrm{CO}_{2} \mathrm{H}$</div>	['Chemistry', 'Ionic Equilibrium', 'WBJEE', 'WBJEE 2015']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">I and II</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">I and III</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">II and III</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">III and IV</span> </li> </ul>	<div class="correct-answer"> The correct answers are: <span class="option-value">I and II</span> </div>	<div class="solution">Isoelectric point for neutral amino acids ranges from $\mathrm{pH} 5.5$ to 6.3 . Acidic amino acids have isoelectric point around 3 while basic amino acids have ranges from pH 7.6 to 10.8 . At isoelectric point, amino acids exist as Zwitter ions. At low pH, it exists as cation and at high $\mathrm{pH}$, it exists as anion. Hence, alanine (pH range $2-4$ ) will exist as cation while alanine (pH range $9-11$ ) will exist as anion. <br/>Acidic medium: <br/>$$ <br/>\mathrm{H}_{3} \mathrm{N}^{+} -\mathrm{CH}\left(\mathrm{CH}_{3}\right) \mathrm{CO}_{2} \mathrm{H} <br/>$$ <br/>Basic medium: <br/>$$ <br/>\mathrm{H}_{2} \mathrm{N}-\mathrm{CH}\left(\mathrm{CH}_{3}\right) \mathrm{CO}_{2}^{-} <br/>$$</div>	db\MarksBatch2_P4.db
2,609	without-changing-the-direction-of-the-axes-the-origin-is-transferred-to-the-point-23-then-the-equation-x-2-y-2-4-x-6-y-9-0-changes-to	without-changing-the-direction-of-the-axes-the-origin-is-transferred-to-the-point-23-then-the-equation-x-2-y-2-4-x-6-y-9-0-changes-to-14138	<div class="question">Without changing the direction of the axes, the origin is transferred to the point (2,3) . Then the equation $x^{2}+y^{2}-4 x-6 y+9=0$ changes to</div>	['Mathematics', 'Pair of Lines', 'WBJEE', 'WBJEE 2018']	<ul class="options"> <li class=""> <span class="option-label">A</span> <span class="option-data">$x^{2}+y^{2}+4=0$</span> </li><li class="correct"> <span class="option-label">B</span> <span class="option-data">$x^{2}+y^{2}=4$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$x^{2}+y^{2}-8 x-12 y+48=0$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$x^{2}+y^{2}=9$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$x^{2}+y^{2}=4$</span> </div>	<div class="solution">Put <br/>$x=x^{\prime}+2$ <br/>and $\quad y=y^{\prime}+3$ <br/>$\therefore \quad x^{2}+y^{2}-4 x-6 y+9=0$ <br/>$$ <br/>\begin{array}{l} <br/>\Rightarrow \quad\left(x^{\prime}+2\right)^{2}+\left(y^{\prime}+3\right)^{2}-4\left(x^{\prime}+2\right) \\ <br/>-6(y+3)+9=0 \\ <br/>\Rightarrow \quad x^{2}+4+4 x^{2}+y^{2}+9 \\ <br/>\quad+6 y^{\prime}-4 x^{2}-8-6 y^{\prime}-18+9=0 \\ <br/>\Rightarrow x^{2}+y^{2}-4=0 \\ <br/>\Rightarrow \quad x^{2}+y^{2}=4 <br/>\end{array} <br/>$$</div>	db\MarksBatch2_P4.db
2,610	work-done-for-a-certain-spring-when-it-is-streched-to-1mm-from-mean-position-is-10j-amount-of-work-that-must-be-done-on-the-spring-to-stretch-it-furth	work-done-for-a-certain-spring-when-it-is-streched-to-1mm-from-mean-position-is-10j-amount-of-work-that-must-be-done-on-the-spring-to-stretch-it-furth-66954	<div class="question">Work done for a certain spring when it is streched to 1mm from mean position is 10J amount of work that must be done on the spring to stretch it further by $1 \mathrm{mm}$ is</div>	['Physics', 'Laws of Motion', 'WBJEE', 'WBJEE 2016']	<ul class="options"> <li class="correct"> <span class="option-label">A</span> <span class="option-data">$30 \mathrm{J}$</span> <svg fill="none" height="24" viewbox="0 0 24 24" width="24" xmlns="http://www.w3.org/2000/svg"> <path d="M12 2.25C10.0716 2.25 8.18657 2.82183 6.58319 3.89317C4.97982 4.96452 3.73013 6.48726 2.99218 8.26884C2.25422 10.0504 2.06114 12.0108 2.43735 13.9021C2.81355 15.7934 3.74215 17.5307 5.10571 18.8943C6.46928 20.2579 8.20656 21.1865 10.0979 21.5627C11.9892 21.9389 13.9496 21.7458 15.7312 21.0078C17.5127 20.2699 19.0355 19.0202 20.1068 17.4168C21.1782 15.8134 21.75 13.9284 21.75 12C21.7473 9.41498 20.7192 6.93661 18.8913 5.10872C17.0634 3.28084 14.585 2.25273 12 2.25ZM16.2806 10.2806L11.0306 15.5306C10.961 15.6004 10.8783 15.6557 10.7872 15.6934C10.6962 15.7312 10.5986 15.7506 10.5 15.7506C10.4014 15.7506 10.3038 15.7312 10.2128 15.6934C10.1218 15.6557 10.039 15.6004 9.96938 15.5306L7.71938 13.2806C7.57865 13.1399 7.49959 12.949 7.49959 12.75C7.49959 12.551 7.57865 12.3601 7.71938 12.2194C7.86011 12.0786 8.05098 11.9996 8.25 11.9996C8.44903 11.9996 8.6399 12.0786 8.78063 12.2194L10.5 13.9397L15.2194 9.21937C15.2891 9.14969 15.3718 9.09442 15.4628 9.0567C15.5539 9.01899 15.6515 8.99958 15.75 8.99958C15.8486 8.99958 15.9461 9.01899 16.0372 9.0567C16.1282 9.09442 16.2109 9.14969 16.2806 9.21937C16.3503 9.28906 16.4056 9.37178 16.4433 9.46283C16.481 9.55387 16.5004 9.65145 16.5004 9.75C16.5004 9.84855 16.481 9.94613 16.4433 10.0372C16.4056 10.1282 16.3503 10.2109 16.2806 10.2806Z" fill="#24A865"></path> </svg> </li><li class=""> <span class="option-label">B</span> <span class="option-data">$40 \mathrm{J}$</span> </li><li class=""> <span class="option-label">C</span> <span class="option-data">$10 \mathrm{J}$</span> </li><li class=""> <span class="option-label">D</span> <span class="option-data">$20 \mathrm{J}$</span> </li> </ul>	<div class="correct-answer"> The correct answer is: <span class="option-value">$30 \mathrm{J}$</span> </div>	<div class="solution">The work done in stretching the spring, $W=\frac{1}{2} K x^{2}$ <br/>$K=$ force constant of spring <br/>$x=$ extension in length of the spring <br/>$$ <br/>\begin{array}{l} <br/>W_{1}=\frac{1}{2} K x_{1}^{2}. \\ <br/>W_{2}=\frac{1}{2} K x_{2}^{2} \\ <br/>x_{1}=1 \\ <br/>x_{2}=1+1=2 \\ <br/>\frac{W_{1}}{W_{2}}=\frac{\frac{1}{2} K(1)^{2}}{\frac{1}{2} K(2)^{2}}=\frac{1}{4} \\ <br/>W_{2}=4 W_{1} \\ <br/>W_{1}=10 \mathrm{J} \\ <br/>W_{2}=40 \mathrm{J} <br/>\end{array} <br/>$$ <br/>$\therefore$ More work required $=40 \mathrm{J}-10 \mathrm{J}=30 \mathrm{J}$</div>	db\MarksBatch2_P4.db