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question_id stringlengths 8 35	subject stringclasses 1 value	chapter stringclasses 32 values	topic stringclasses 178 values	question stringlengths 26 9.64k	options stringlengths 2 1.63k	correct_option stringclasses 5 values	answer stringclasses 293 values	explanation stringlengths 13 9.38k	question_type stringclasses 3 values	paper_id stringclasses 149 values
1l5c2cwqz	maths	definite-integration	properties-of-definite-integration	<p>Let $$\mathop {Max}\limits_{0\, \le x\, \le 2} \left\{ {{{9 - {x^2}} \over {5 - x}}} \right\} = \alpha $$ and $$\mathop {Min}\limits_{0\, \le x\, \le 2} \left\{ {{{9 - {x^2}} \over {5 - x}}} \right\} = \beta $$.</p> <p>If $$\int\limits_{\beta - {8 \over 3}}^{2\alpha - 1} {Max\left\{ {{{9 - {x^2}} \over {5 - x}},x}...	[]	null	34	Let $f(x)=\frac{x^{2}-9}{x-5} \Rightarrow f^{\prime}(x)=\frac{(x-1)(x-9)}{(x-5)^{2}}$ <br/><br/> So, $\alpha=f(1)=2$ and $\beta=\min (f(0), f(2))=\frac{5}{3}$ <br/><br/> Now, $\int_{-1}^{3} \max \left\{\frac{x^{2}-9}{x-5}, x\right\} d x=\int_{-1}^{9 / 5} \frac{x^{2}-9}{x-5} d x+\int_{9 / 5}^{3} x d x$ <br/><br/> $$ =\i...	integer	jee-main-2022-online-24th-june-morning-shift
1l5w1ciod	maths	definite-integration	properties-of-definite-integration	<p>Let $$f(t) = \int\limits_0^t {{e^{{x^3}}}\left( {{{{x^8}} \over {{{({x^6} + 2{x^3} + 2)}^2}}}} \right)dx} $$. If $$f(1) + f'(1) = \alpha e - {1 \over 6}$$, then the value of 150$$\alpha$$ is equal to ___________.</p>	[]	null	16	<p>Given,</p> <p>$$f(t) = \int\limits_0^t {{e^{{x^3}}}\left( {{{{x^8}} \over {{{({x^6} + 2{x^3} + 2)}^2}}}} \right)dx} $$</p> <p>$$f'(t) = {e^{{t^3}}}\left( {{{{t^8}} \over {{{({t^6} + 2{t^3} + 2)}^2}}}} \right)$$</p> <p>$$\therefore$$ $$f'(1) = {e^1}\left( {{1 \over {{{(1 + 2 + 2)}^2}}}} \right)$$</p> <p>$$ = {e \over...	integer	jee-main-2022-online-30th-june-morning-shift
1l6dvfwkf	maths	definite-integration	properties-of-definite-integration	<p>For any real number $$x$$, let $$[x]$$ denote the largest integer less than equal to $$x$$. Let $$f$$ be a real valued function defined on the interval $$[-10,10]$$ by $$f(x)=\left\{\begin{array}{l}x-[x], \text { if }[x] \text { is odd } \\ 1+[x]-x, \text { if }[x] \text { is even } .\end{array}\right.$$ Then the v...	[{"identifier": "A", "content": "4"}, {"identifier": "B", "content": "2"}, {"identifier": "C", "content": "1"}, {"identifier": "D", "content": "0"}]	["A"]	null	<p>Case 1 :</p> <p>Let $$0 \le x < 1$$</p> <p>then $$\left[ x \right] = 0$$, which is even</p> <p>$$\therefore$$ $$f(x) = 1 + \left[ x \right] - x$$</p> <p>$$ = 1 + 0 - x$$</p> <p>$$ = 1 - x$$</p> <p>Case 2 :</p> <p>Let $$1 \le x < 2$$</p> <p>then $$\left[ x \right] = 1$$, which is odd</p> <p>$$\therefore$$ $$f(x...	mcq	jee-main-2022-online-25th-july-morning-shift
1l6f157cx	maths	definite-integration	properties-of-definite-integration	<p>Let $$[t]$$ denote the greatest integer less than or equal to $$t$$. Then the value of the integral $$\int_{-3}^{101}\left([\sin (\pi x)]+e^{[\cos (2 \pi x)]}\right) d x$$ is equal to</p>	[{"identifier": "A", "content": "$$\\frac{52(1-e)}{e}$$"}, {"identifier": "B", "content": "$$\\frac{52}{e}$$"}, {"identifier": "C", "content": "$$\\frac{52(2+e)}{e}$$"}, {"identifier": "D", "content": "$$\\frac{104}{e}$$"}]	["B"]	null	<p>$$I = \int_{ - 3}^{101} {\left( {\left[ {\sin (\pi x)} \right] + {e^{[\cos (2\pi x)]}}} \right)dx} $$</p> $$[\sin \pi x]$$ is periodic with period 2 and $${{e^{[\cos (2\pi x)]}}}$$ is periodic with period 1.</p> <p>So,</p> <p>$$I = 52\int_0^2 {\left( {\left[ {\sin \pi x} \right] + {e^{[\cos 2\pi x]}}} \right)dx} $$<...	mcq	jee-main-2022-online-25th-july-evening-shift
1l6f3l2tc	maths	definite-integration	properties-of-definite-integration	<p>Let $${a_n} = \int\limits_{ - 1}^n {\left( {1 + {x \over 2} + {{{x^2}} \over 3} + \,\,.....\,\, + \,\,{{{x^{n - 1}}} \over n}} \right)dx} $$ for every n $$\in$$ N. Then the sum of all the elements of the set {n $$\in$$ N : a<sub>n</sub> $$\in$$ (2, 30)} is ____________.</p>	[]	null	5	<p>$$\because$$ $${a_n} = \int\limits_{ - 1}^n {\left( {1 + {x \over 2} + {{{x^2}} \over 3}\, + \,....\, + \,{{{x^{n - 1}}} \over n}} \right)dx} $$</p> <p>$$ = \left[ {x + {{{x^2}} \over {{2^2}}} + {{{x^3}} \over {{3^2}}}\, + \,......\, + \,{{{x^n}} \over {{n^2}}}} \right]_{ - 1}^n$$</p> <p>$${a_n} = {{n + 1} \over {{1...	integer	jee-main-2022-online-25th-july-evening-shift
1l6gjh7xh	maths	definite-integration	properties-of-definite-integration	<p>If $$\mathrm{n}(2 \mathrm{n}+1) \int_{0}^{1}\left(1-x^{\mathrm{n}}\right)^{2 \mathrm{n}} \mathrm{d} x=1177 \int_{0}^{1}\left(1-x^{\mathrm{n}}\right)^{2 \mathrm{n}+1} \mathrm{~d} x$$, then $$\mathrm{n} \in \mathbf{N}$$ is equal to ______________.</p>	[]	null	24	<p>$$\int_0^1 {{{(1 - {x^n})}^{2n + 1}}dx = \int_0^1 {1\,.\,{{(1 - {x^n})}^{2n + 1}}dx} } $$</p> <p>$$ = \left[ {{{(1 - {x^n})}^{2n + 1}}\,.\,x} \right]_0^1 - \int_0^1 {x\,.\,(2n + 1){{(1 - {x^n})}^{2n}}\,.\, - n{x^{n - 1}}dx} $$</p> <p>$$ = n(2n + 1)\int_0^1 {(1 - (1 - {x^n})){{(1 - {x^n})}^{2n}}dx} $$</p> <p>$$ = n(2...	integer	jee-main-2022-online-26th-july-morning-shift
1l6hydgfm	maths	definite-integration	properties-of-definite-integration	<p>$$ \int\limits_{0}^{20 \pi}(\|\sin x\|+\|\cos x\|)^{2} d x \text { is equal to } $$</p>	[{"identifier": "A", "content": "$$10(\\pi+4)$$"}, {"identifier": "B", "content": "$$10(\\pi+2)$$"}, {"identifier": "C", "content": "$$20(\\pi-2)$$"}, {"identifier": "D", "content": "$$20(\\pi+2)$$"}]	["D"]	null	<p>$$I = \int\limits_0^{20\pi } {{{\left( {\|\sin x\| + \|\cos x\|} \right)}^2}\,dx} $$</p> <p>$$ = 20\int\limits_0^\pi {\left( {1 + \|\sin 2x\|} \right)\,dx} $$</p> <p>$$ = 40\int\limits_0^{{\pi \over 2}} {(1 + \sin 2x)\,dx} $$</p> <p>$$ = \left. {40\left( {x - {{\cos 2x} \over 2}} \right)} \right\|_0^{{\pi \over 2}}$$</p...	mcq	jee-main-2022-online-26th-july-evening-shift
1l6jbku4w	maths	definite-integration	properties-of-definite-integration	<p>Let $$f: \mathbb{R} \rightarrow \mathbb{R}$$ be a function defined as</p> <p>$$f(x)=a \sin \left(\frac{\pi[x]}{2}\right)+[2-x], a \in \mathbb{R}$$ where $$[t]$$ is the greatest integer less than or equal to $$t$$. If $$\mathop {\lim }\limits_{x \to -1 } f(x)$$ exists, then the value of $$\int\limits_{0}^{4} f(x) d x...	[{"identifier": "A", "content": "$$-$$1"}, {"identifier": "B", "content": "$$-$$2"}, {"identifier": "C", "content": "1"}, {"identifier": "D", "content": "2"}]	["B"]	null	<p>$$f(x) = a\sin \left( {{{\pi [x]} \over 2}} \right) + [2 - x]\,a \in R$$</p> <p>Now,</p> <p>$$\because$$ $$\mathop {\lim }\limits_{x \to - 1} f(x)$$ exist</p> <p>$$\therefore$$ $$\mathop {\lim }\limits_{x \to - {1^ - }} f(x) = \mathop {\lim }\limits_{x \to - {1^ + }} f(x)$$</p> <p>$$ \Rightarrow a\sin \left( {{{ ...	mcq	jee-main-2022-online-27th-july-morning-shift
1l6jbqfar	maths	definite-integration	properties-of-definite-integration	<p>Let $$ I=\int_{\pi / 4}^{\pi / 3}\left(\frac{8 \sin x-\sin 2 x}{x}\right) d x $$. Then</p>	[{"identifier": "A", "content": "$${\\pi \\over 2} < I < {{3\\pi } \\over 4}$$"}, {"identifier": "B", "content": "$${\\pi \\over 5} < I < {{5\\pi } \\over {12}}$$"}, {"identifier": "C", "content": "$${{5\\pi } \\over {12}} < I < {{\\sqrt 2 } \\over 3}\\pi $$"}, {"identifier": "D", "content": "$${{3\\pi } \\over 4} < ...	["C"]	null	<p>I comes out around 1.536 which is not satisfied by any given options.</p> <p>$$\int\limits_{\pi /4}^{\pi /3} {{{8x - 2x} \over x}dx > I > \int\limits_{\pi /4}^{\pi /3} {{{8\sin x - 2x} \over x}dx} } $$</p> <p>$${\pi \over 2} > I > \int\limits_{\pi /4}^{\pi /3} {\left( {{{8\sin x} \over x} - 2} \right)dx} $$</p> <p>...	mcq	jee-main-2022-online-27th-july-morning-shift
1l6jdqp3s	maths	definite-integration	properties-of-definite-integration	<p>Let a function $$f: \mathbb{R} \rightarrow \mathbb{R}$$ be defined as :</p> <p>$$f(x)= \begin{cases}\int\limits_{0}^{x}(5-\|t-3\|) d t, & x>4 \\ x^{2}+b x & , x \leq 4\end{cases}$$</p> <p>where $$\mathrm{b} \in \mathbb{R}$$. If $$f$$ is continuous at $$x=4$$, then which of the following statements is NOT tr...	[{"identifier": "A", "content": "$$f$$ is not differentiable at $$x=4$$"}, {"identifier": "B", "content": "$$f^{\\prime}(3)+f^{\\prime}(5)=\\frac{35}{4}$$"}, {"identifier": "C", "content": "$$f$$ is increasing in $$\\left(-\\infty, \\frac{1}{8}\\right) \\cup(8, \\infty)$$"}, {"identifier": "D", "content": "$$f$$ has a ...	["C"]	null	<p>$$\because$$ f(x) is continuous at x = 4</p> <p>$$ \Rightarrow f({4^ - }) = f({4^ + })$$</p> <p>$$ \Rightarrow 16 + 4b = \int\limits_0^4 {(5 - \|t - 3\|)dt} $$</p> <p>$$ = \int\limits_0^3 {(2 + t)dt + \int\limits_3^4 {(8 - t)dt} } $$</p> <p>$$ = \left. {2t + {{{t^2}} \over 2}} \right)_0^3 + \left. {8t - {{{t^2}} \over...	mcq	jee-main-2022-online-27th-july-morning-shift
1l6kiq196	maths	definite-integration	properties-of-definite-integration	<p>Let $$f(x)=2+\|x\|-\|x-1\|+\|x+1\|, x \in \mathbf{R}$$.</p> <p>Consider</p> <p>$$(\mathrm{S} 1): f^{\prime}\left(-\frac{3}{2}\right)+f^{\prime}\left(-\frac{1}{2}\right)+f^{\prime}\left(\frac{1}{2}\right)+f^{\prime}\left(\frac{3}{2}\right)=2$$</p> <p>$$(\mathrm{S} 2): \int\limits_{-2}^{2} f(x) \mathrm{d} x=12$$</p> <p>Then...	[{"identifier": "A", "content": "both (S1) and (S2) are correct"}, {"identifier": "B", "content": "both (S1) and (S2) are wrong"}, {"identifier": "C", "content": "only (S1) is correct"}, {"identifier": "D", "content": "only (S2) is correct"}]	["D"]	null	<p>$$f(x) = 2 + \|x\| - \|x - 1\| + \|x + 1\|,\,x \in R$$</p> <p>$$\therefore$$ $$f(x) = \left\{ {\matrix{ { - x} & , & {x < - 1} \cr {x + 2} & , & { - 1 \le x < 0} \cr {3x + 2} & , & {0 \le x < 1} \cr {x + 4} & , & {x \ge 1} \cr } } \right.$$</p> <p>$$\therefore$$ $$f'\left( { - {3 \over 2}} \right) +...	mcq	jee-main-2022-online-27th-july-evening-shift
1l6kjxlll	maths	definite-integration	properties-of-definite-integration	<p>$$\int\limits_{0}^{2}\left(\left\|2 x^{2}-3 x\right\|+\left[x-\frac{1}{2}\right]\right) \mathrm{d} x$$, where [t] is the greatest integer function, is equal to :</p>	[{"identifier": "A", "content": "$$\\frac{7}{6}$$"}, {"identifier": "B", "content": "$$\\frac{19}{12}$$"}, {"identifier": "C", "content": "$$\\frac{31}{12}$$"}, {"identifier": "D", "content": "$$\\frac{3}{2}$$"}]	["B"]	null	<p>$$\int\limits_0^2 {\|2{x^2} - 3x\|dx + \int\limits_0^2 {\left[ {x - {1 \over 2}} \right]dx} } $$</p> <p>$$ = \int\limits_0^{3/2} {(3x - 2{x^2})dx + \int\limits_{3/2}^2 {(2{x^2} - 3x)dx + \int\limits_0^{1/2} { - 1dx + \int\limits_{1/2}^{3/2} {0\,dx + \int\limits_{3/2}^2 {1dx} } } } } $$</p> <p>$$ = \left. {\left( {{{3{...	mcq	jee-main-2022-online-27th-july-evening-shift
1l6klps4r	maths	definite-integration	properties-of-definite-integration	<p>Let $$f(x)=\min \{[x-1],[x-2], \ldots,[x-10]\}$$ where [t] denotes the greatest integer $$\leq \mathrm{t}$$. Then $$\int\limits_{0}^{10} f(x) \mathrm{d} x+\int\limits_{0}^{10}(f(x))^{2} \mathrm{~d} x+\int\limits_{0}^{10}\|f(x)\| \mathrm{d} x$$ is equal to ________________.</p>	[]	null	385	<p>$$\because$$ $$f(x) = \min \,\{ [x - 1],[x - 2],\,......,\,[x - 10]\} = [x - 10]$$</p> <p>Also $$\|f(x)\| = \left\{ {\matrix{ { - f(x),} & {if\,x \le 10} \cr {f(x),} & {if\,x \ge 10} \cr } } \right.$$</p> <p>$$\therefore$$ $$\int\limits_0^{10} {f(x)dx + \int\limits_0^{10} {{{(f(x))}^2}dx + \int\limits_0^{...	integer	jee-main-2022-online-27th-july-evening-shift
1l6m6kw3s	maths	definite-integration	properties-of-definite-integration	<p>If $$\int\limits_{0}^{\sqrt{3}} \frac{15 x^{3}}{\sqrt{1+x^{2}+\sqrt{\left(1+x^{2}\right)^{3}}}} \mathrm{~d} x=\alpha \sqrt{2}+\beta \sqrt{3}$$, where $$\alpha, \beta$$ are integers, then $$\alpha+\beta$$ is equal to __________.</p>	[]	null	10	<p>Put $$x = \tan \theta \Rightarrow dx = {\sec ^2}\theta \,d\theta $$</p> <p>$$ \Rightarrow I = \int\limits_0^{{\pi \over 3}} {{{15{{\tan }^3}\theta \,.\,{{\sec }^2}\theta \,d\theta } \over {\sqrt {1 + {{\tan }^2}\theta + \sqrt {{{\sec }^6}\theta } } }}} $$</p> <p>$$ \Rightarrow I = \int\limits_0^{{\pi \over 3}} {...	integer	jee-main-2022-online-28th-july-morning-shift
1l6nm7c4a	maths	definite-integration	properties-of-definite-integration	<p>Let $$I_{n}(x)=\int_{0}^{x} \frac{1}{\left(t^{2}+5\right)^{n}} d t, n=1,2,3, \ldots .$$ Then :</p>	[{"identifier": "A", "content": "$$50 I_{6}-9 I_{5}=x I_{5}^{\\prime}$$"}, {"identifier": "B", "content": "$$50 I_{6}-11 I_{5}=x I_{5}^{\\prime}$$"}, {"identifier": "C", "content": "$$50 I_{6}-9 I_{5}=I_{5}^{\\prime}$$"}, {"identifier": "D", "content": "$$50 I_{6}-11 I_{5}=I_{5}^{\\prime}$$"}]	["A"]	null	<p>$${I_n}(x) = \int\limits_0^x {{1 \over {{{({t^2} + 5)}^n}}}dt} $$</p> <p>$$ = \int\limits_0^x {{1 \over {\underbrace {{{({t^2} + 5)}^n}}_I}} \times \mathop I\limits_{II} \,dt} $$</p> <p>$$ = \left. {{t \over {{{({t^2} + 5)}^n}}}} \right\|_0^x - \int\limits_0^x {{{ - 2nt} \over {{{({t^2} + 5)}^{n + 1}}}} \times t\,dt}...	mcq	jee-main-2022-online-28th-july-evening-shift
1l6npjdpk	maths	definite-integration	properties-of-definite-integration	<p>The value of the integral $$\int\limits_{0}^{\frac{\pi}{2}} 60 \frac{\sin (6 x)}{\sin x} d x$$ is equal to _________.</p>	[]	null	104	<p>$$I = \int\limits_0^{{\pi \over 2}} {60\,.\,{{\sin 6x} \over {\sin x}}dx} $$</p> <p>$$ = 60\,.\,2\int\limits_0^{{\pi \over 2}} {(3 - 4{{\sin }^2}x)(4{{\cos }^2}x - 3)\cos x\,dx} $$</p> <p>$$ = 120\int\limits_0^{{\pi \over 2}} {(3 - 4{{\sin }^2}x)(1 - 4{{\sin }^2}x)\cos x\,dx} $$</p> <p>Let $$\sin x = t \Rightarro...	integer	jee-main-2022-online-28th-july-evening-shift
1l6p1b4ew	maths	definite-integration	properties-of-definite-integration	<p>The integral $$\int\limits_{0}^{\frac{\pi}{2}} \frac{1}{3+2 \sin x+\cos x} \mathrm{~d} x$$ is equal to :</p>	[{"identifier": "A", "content": "$$\\tan ^{-1}(2)$$"}, {"identifier": "B", "content": "$$\\tan ^{-1}(2)-\\frac{\\pi}{4}$$"}, {"identifier": "C", "content": "$$\\frac{1}{2} \\tan ^{-1}(2)-\\frac{\\pi}{8}$$"}, {"identifier": "D", "content": "$$\\frac{1}{2}$$"}]	["B"]	null	<p>$$I = \int\limits_0^{\pi /2} {{1 \over {3 + 2\sin x + \cos x}}dx} $$</p> <p>$$ = \int\limits_0^{\pi /2} {{{(1 + {{\tan }^2}x/2)dx} \over {3(1 + {{\tan }^2}x/2) + 2(2\tan x/2) + (1 - {{\tan }^2}x/2)}}} $$</p> <p>Let $$\tan x/2 = t \Rightarrow {\sec ^2}x/2dx = 2dt$$</p> <p>$$I = \int\limits_0^1 {{{2dt} \over {4 + 2{t^...	mcq	jee-main-2022-online-29th-july-morning-shift
1l6p2ihmv	maths	definite-integration	properties-of-definite-integration	<p>If $$f(\alpha)=\int\limits_{1}^{\alpha} \frac{\log _{10} \mathrm{t}}{1+\mathrm{t}} \mathrm{dt}, \alpha>0$$, then $$f\left(\mathrm{e}^{3}\right)+f\left(\mathrm{e}^{-3}\right)$$ is equal to :</p>	[{"identifier": "A", "content": "9"}, {"identifier": "B", "content": "$$\\frac{9}{2}$$"}, {"identifier": "C", "content": "$$\\frac{9}{\\log _{e}(10)}$$"}, {"identifier": "D", "content": "$$\\frac{9}{2 \\log _{e}(10)}$$"}]	["D"]	null	<p>$$f(\alpha ) = \int_1^\alpha {{{{{\log }_{10}}t} \over {1 + t}}dt} $$ ...... (i)</p> <p>$$f\left( {{1 \over \alpha }} \right) = \int_1^{{1 \over \alpha }} {{{{{\log }_{10}}t} \over {1 + t}}dt} $$</p> <p>Substituting $$t \to {1 \over p}$$</p> <p>$$f\left( {{1 \over \alpha }} \right) = \int_1^\alpha {{{{{\log }_{10}...	mcq	jee-main-2022-online-29th-july-morning-shift
1l6re2c2a	maths	definite-integration	properties-of-definite-integration	<p>If $$[t]$$ denotes the greatest integer $$\leq t$$, then the value of $$\int_{0}^{1}\left[2 x-\left\|3 x^{2}-5 x+2\right\|+1\right] \mathrm{d} x$$ is :</p>	[{"identifier": "A", "content": "$$\\frac{\\sqrt{37}+\\sqrt{13}-4}{6}$$"}, {"identifier": "B", "content": "$$\\frac{\\sqrt{37}-\\sqrt{13}-4}{6}$$"}, {"identifier": "C", "content": "$$\\frac{-\\sqrt{37}-\\sqrt{13}+4}{6}$$"}, {"identifier": "D", "content": "$$\\frac{-\\sqrt{37}+\\sqrt{13}+4}{6}$$"}]	["A"]	null	<p>$$\int_0^1 {\left[ {2x - \|3{x^2} - 5x + 2\| + 1} \right]dx} $$</p> <p>$$3{x^2} - 5x + 2 = 0$$</p> <p>$$ \Rightarrow 3{x^2} - 3x - 2x + 2 = 0$$</p> <p>$$ \Rightarrow 3x(x - 1) - 2(x - 1) = 0$$</p> <p>$$ \Rightarrow (x - 1)(3x - 2) = 0$$</p> <p><img src="https://app-content.cdn.examgoal.net/fly/@width/image/1l7e9s1mi/e...	mcq	jee-main-2022-online-29th-july-evening-shift
1ldo61zd1	maths	definite-integration	properties-of-definite-integration	<p>The value of the integral <br/><br/>$$\int\limits_{ - {\pi \over 4}}^{{\pi \over 4}} {{{x + {\pi \over 4}} \over {2 - \cos 2x}}dx} $$ is :</p>	[{"identifier": "A", "content": "$${{{\\pi ^2}} \\over {6\\sqrt 3 }}$$"}, {"identifier": "B", "content": "$${{{\\pi ^2}} \\over 6}$$"}, {"identifier": "C", "content": "$${{{\\pi ^2}} \\over {3\\sqrt 3 }}$$"}, {"identifier": "D", "content": "$${{{\\pi ^2}} \\over {12\\sqrt 3 }}$$"}]	["A"]	null	$$ I=\int_{-\frac{\pi}{4}}^{\frac{\pi}{4}} \frac{x+\frac{\pi}{4}}{(2-\cos 2 x)} d x $$ <br/><br/>Using $\int_a^b f(x) d x=\int_a^b f(a+b-x) d x$ <br/><br/>$$ I=\int_{-\frac{\pi}{4}}^{\frac{\pi}{4}}\left(\frac{-x+\frac{\pi}{4}}{2-\cos 2 x}\right) d x $$ <br/><br/>$\begin{aligned} & \therefore 2 I=\int_{-\frac{\pi}{4}}^{...	mcq	jee-main-2023-online-1st-february-evening-shift
1ldo73jao	maths	definite-integration	properties-of-definite-integration	<p>If $$\int\limits_0^\pi {{{{5^{\cos x}}(1 + \cos x\cos 3x + {{\cos }^2}x + {{\cos }^3}x\cos 3x)dx} \over {1 + {5^{\cos x}}}} = {{k\pi } \over {16}}} $$, then k is equal to _____________.</p>	[]	null	13	$$ \begin{aligned} & \mathrm{I}=\int_0^\pi \frac{5^{\cos x}\left(1+\cos x \cos 3 x+\cos ^2 x+\cos ^3 x \cos 3 x\right)}{1+5^{\cos x}} d x \\\\ & I=\int_0^\pi \frac{5^{-\cos x}\left(1+\cos x \cos 3 x+\cos ^2 x+\cos ^3 x \cos 3 x\right)}{1+5^{-\cos x}} d x \\\\ & 2 \mathrm{I}=\int_0^\pi\left(1+\cos x \cos 3 x+\cos ^2 x+\...	integer	jee-main-2023-online-1st-february-evening-shift
ldo82cg6	maths	definite-integration	properties-of-definite-integration	Let $\alpha>0$. If $\int\limits_0^\alpha \frac{x}{\sqrt{x+\alpha}-\sqrt{x}} \mathrm{~d} x=\frac{16+20 \sqrt{2}}{15}$, then $\alpha$ is equal to :	[{"identifier": "A", "content": "4\n"}, {"identifier": "B", "content": "2"}, {"identifier": "C", "content": "$2 \\sqrt{2}$"}, {"identifier": "D", "content": "$\\sqrt{2}$"}]	["B"]	null	$I=\int\limits_{0}^{\alpha} \frac{x}{\sqrt{x+\alpha}-\sqrt{x}} d x, \alpha>0$ <br/><br/>$$ \begin{aligned} & =\frac{1}{\alpha} \int\limits_{0}^{\alpha} x(\sqrt{x+\alpha}+\sqrt{x}) d x \end{aligned} $$ <br/><br/>$$\eqalign{ & = {1 \over \alpha }\int\limits_0^\alpha {\left( {x\sqrt {x + \alpha } + x\sqrt x } \righ...	mcq	jee-main-2023-online-31st-january-evening-shift
1ldonnoj6	maths	definite-integration	properties-of-definite-integration	<p>If $$\int_\limits{0}^{1}\left(x^{21}+x^{14}+x^{7}\right)\left(2 x^{14}+3 x^{7}+6\right)^{1 / 7} d x=\frac{1}{l}(11)^{m / n}$$ where $$l, m, n \in \mathbb{N}, m$$ and $$n$$ are coprime then $$l+m+n$$ is equal to ____________.</p>	[]	null	63	$I=\int_{0}^{1}\left(x^{21}+x^{14}+x^{7}\right)\left(2 x^{14}+3 x^{7}+6\right)^{1 / 7} d x$ <br/><br/>$I=\int_{0}^{1}\left(x^{20}+x^{13}+x^{6}\right)\left(2 x^{21}+3 x^{14}+6 x^{7}\right)^{1 / 7} d x$ <br/><br/>Let $2 x^{21}+3 x^{14}+6 x^{7}=t$ <br/><br/>$\Rightarrow 42\left(x^{20}+x^{13}+x^{6}\right) d x=d t$ <br/>...	integer	jee-main-2023-online-1st-february-morning-shift
1ldoo6cqc	maths	definite-integration	properties-of-definite-integration	<p>Let $$f: \mathbb{R} \rightarrow \mathbb{R}$$ be a differentiable function such that $$f^{\prime}(x)+f(x)=\int_\limits{0}^{2} f(t) d t$$. If $$f(0)=e^{-2}$$, then $$2 f(0)-f(2)$$ is equal to ____________.</p>	[]	null	1	$f^{\prime}(x)+f(x)=k$ <br/><br/>$$ \begin{aligned} & \Rightarrow e^{x} f(x)=k e^{x}+c \\\\ & f(x)=k+c e^{-x} \\\\ & k=\int_{0}^{2}\left(k+c e^{-t}\right) d t \\\\ & k=2 k+\left.c \cdot \frac{e^{-t}}{-1}\right\|_{0} ^{2} \\\\ & k=2 k+c\left(\frac{e^{-2}}{-1}+1\right) \\\\ & -k=c\left(1-\frac{1}{e^{2}}\right) \\\\ & f(x...	integer	jee-main-2023-online-1st-february-morning-shift
1ldpsjlsl	maths	definite-integration	properties-of-definite-integration	<p>Let $$\alpha \in (0,1)$$ and $$\beta = {\log _e}(1 - \alpha )$$. Let $${P_n}(x) = x + {{{x^2}} \over 2} + {{{x^3}} \over 3}\, + \,...\, + \,{{{x^n}} \over n},x \in (0,1)$$. Then the integral $$\int\limits_0^\alpha {{{{t^{50}}} \over {1 - t}}dt} $$ is equal to</p>	[{"identifier": "A", "content": "$$ - \\left( {\\beta + {P_{50}}\\left( \\alpha \\right)} \\right)$$"}, {"identifier": "B", "content": "$$\\beta - {P_{50}}(\\alpha )$$"}, {"identifier": "C", "content": "$${P_{50}}(\\alpha ) - \\beta $$"}, {"identifier": "D", "content": "$$\\beta + {P_{50}} - (\\alpha )$$"}]	["A"]	null	$\int_{0}^{\alpha} \frac{t^{50}}{1-t} d t$ <br/><br/>$$ \begin{aligned} & = \int_{0}^{\alpha} \frac{t^{50}-1+1}{1-t}\\\\ & =-\int_{0}^{\alpha}\left(\frac{1-t^{50}}{1-t}-\frac{1}{1-t}\right) d t\\\\ & =-\int_{0}^{\alpha}\left(1+t+\ldots . .+t^{49}\right)+\int_{0}^{\alpha} \frac{1}{1-t} d t \end{aligned} $$ <br/><br/>$=...	mcq	jee-main-2023-online-31st-january-morning-shift
1ldpt0own	maths	definite-integration	properties-of-definite-integration	<p>The value of $$\int_\limits{\frac{\pi}{3}}^{\frac{\pi}{2}} \frac{(2+3 \sin x)}{\sin x(1+\cos x)} d x$$ is equal to :</p>	[{"identifier": "A", "content": "$$\\frac{10}{3}-\\sqrt{3}+\\log _{e} \\sqrt{3}$$"}, {"identifier": "B", "content": "$$\\frac{7}{2}-\\sqrt{3}-\\log _{e} \\sqrt{3}$$"}, {"identifier": "C", "content": "$$\\frac{10}{3}-\\sqrt{3}-\\log _{e} \\sqrt{3}$$"}, {"identifier": "D", "content": "$$-2+3\\sqrt{3}+\\log _{e} \\sqrt{3}...	["A"]	null	Let I = $$\int_\limits{\frac{\pi}{3}}^{\frac{\pi}{2}} \frac{(2+3 \sin x)}{\sin x(1+\cos x)} d x$$ <br/><br/>$$ =\int\limits_{\pi / 3}^{\pi / 2} \frac{2}{\sin x(1+\cos x)} d x+\int\limits_{\pi / 3}^{\pi / 2} \frac{3}{1+\cos x} d x $$ <br/><br/>$$ \begin{aligned} =\int\limits_{\pi / 3}^{\pi / 2} \frac{2(1-\cos x)}{\sin x...	mcq	jee-main-2023-online-31st-january-morning-shift
1ldr6vx1p	maths	definite-integration	properties-of-definite-integration	<p>If [t] denotes the greatest integer $$\le \mathrm{t}$$, then the value of $${{3(e - 1)} \over e}\int\limits_1^2 {{x^2}{e^{[x] + [{x^3}]}}dx} $$ is :</p>	[{"identifier": "A", "content": "$$\\mathrm{e^8-e}$$"}, {"identifier": "B", "content": "$$\\mathrm{e^7-1}$$"}, {"identifier": "C", "content": "$$\\mathrm{e^9-e}$$"}, {"identifier": "D", "content": "$$\\mathrm{e^8-1}$$"}]	["A"]	null	<p>$$I = {{3(e - 1)} \over e}\int_1^2 {{x^2}{e^{[x] + [{x^3}]}}dx} $$</p> <p>$$ = {{3(e - 1)} \over e}\int_1^2 {{x^2}{e^{1 + [{x^3}]}}dx} $$ ($$\because$$ $$[x] = 1$$ when $$x \in (12)$$)</p> <p>$$ = 3(e - 1)\int_1^2 {{x^2}{e^{[{x^3}]}}dx} $$</p> <p>Let $${x^3} = t$$</p> <p>$$I = (e - 1)\int_1^8 {{e^{[t]}}dt} $$</p> <p...	mcq	jee-main-2023-online-30th-january-morning-shift
1ldsfe8t4	maths	definite-integration	properties-of-definite-integration	<p>The value of the integral $$\int_1^2 {\left( {{{{t^4} + 1} \over {{t^6} + 1}}} \right)dt} $$ is</p>	[{"identifier": "A", "content": "$${\\tan ^{ - 1}}{1 \\over 2} - {1 \\over 3}{\\tan ^{ - 1}}8 + {\\pi \\over 3}$$"}, {"identifier": "B", "content": "$${\\tan ^{ - 1}}2 - {1 \\over 3}{\\tan ^{ - 1}}8 + {\\pi \\over 3}$$"}, {"identifier": "C", "content": "$${\\tan ^{ - 1}}2 + {1 \\over 3}{\\tan ^{ - 1}}8 - {\\pi \\ove...	["C"]	null	<p>$$\int_1^2 {{{{t^4} + 1} \over {{t^6} + 1}}dt} $$</p> <p>$$ = \int_1^2 {{{{{({t^2} + 1)}^2}} \over {{t^6} + 1}}dt - 2\int_1^2 {{{{t^2}} \over {{t^6} + 1}}dt} } $$</p> <p>$$ = \int_1^2 {{{{t^2} + 1} \over {{t^4} - {t^2} + 1}}dt - 2\int_1^2 {{{{t^2}} \over {{{({t^3})}^2} + 1}}dt} } $$</p> <p>$$ = \left. {{{\tan }^{ - ...	mcq	jee-main-2023-online-29th-january-evening-shift
1ldsfpdr8	maths	definite-integration	properties-of-definite-integration	<p>The value of the integral $$\int\limits_{1/2}^2 {{{{{\tan }^{ - 1}}x} \over x}dx} $$ is equal to :</p>	[{"identifier": "A", "content": "$${\\pi \\over 2}{\\log _e}2$$"}, {"identifier": "B", "content": "$${\\pi \\over 4}{\\log _e}2$$"}, {"identifier": "C", "content": "$${1 \\over 2}{\\log _e}2$$"}, {"identifier": "D", "content": "$$\\pi {\\log _e}2$$"}]	["A"]	null	<p>$$I = \int\limits_{{1 \over 2}}^2 {{{{{\tan }^{ - 1}}x} \over x}dx} $$ ..... (i)</p> <p>$$x \to {1 \over x}$$</p> <p>$$I = \int\limits_{{1 \over 2}}^2 {{1 \over x}{{\tan }^{ - 1}}{1 \over x}dx} $$ ..... (ii)</p> <p>$$2I = \int\limits_{{1 \over 2}}^2 {{1 \over x}\,.\,{\pi \over 2}dx} $$</p> <p>$$ = \left. {{\pi \ov...	mcq	jee-main-2023-online-29th-january-evening-shift
1ldsuma7b	maths	definite-integration	properties-of-definite-integration	<p>Let $$f(x) = x + {a \over {{\pi ^2} - 4}}\sin x + {b \over {{\pi ^2} - 4}}\cos x,x \in R$$ be a function which<br/><br/> satisfies $$f(x) = x + \int\limits_0^{\pi /2} {\sin (x + y)f(y)dy} $$. then $$(a+b)$$ is equal to</p>	[{"identifier": "A", "content": "$$ - 2\\pi (\\pi + 2)$$"}, {"identifier": "B", "content": "$$ - \\pi (\\pi - 2)$$"}, {"identifier": "C", "content": "$$ - \\pi (\\pi + 2)$$"}, {"identifier": "D", "content": "$$ - 2\\pi (\\pi - 2)$$"}]	["A"]	null	$f(x)=x+\int\limits_{0}^{\pi / 2}(\sin x \cos y+\cos x \sin y) f(y) d y$ <br/><br/> $f(x)=x+\int\limits_{0}^{\pi / 2}((\cos y f(y) d y) \sin x+(\sin y f(y) d y) \cos x)\quad....(1)$ <br/><br/> On comparing with <br/><br/> $f(x)=x+\frac{a}{\pi^{2}-4} \sin x+\frac{b}{\pi^{2}-4} \cos x, x \in \mathbb{R}$ then <br/><br/> $...	mcq	jee-main-2023-online-29th-january-morning-shift
1ldu5exe2	maths	definite-integration	properties-of-definite-integration	<p>The integral $$16\int\limits_1^2 {{{dx} \over {{x^3}{{\left( {{x^2} + 2} \right)}^2}}}} $$ is equal to</p>	[{"identifier": "A", "content": "$${{11} \\over {12}} + {\\log _e}4$$"}, {"identifier": "B", "content": "$${{11} \\over 6} + {\\log _e}4$$"}, {"identifier": "C", "content": "$${{11} \\over {12}} - {\\log _e}4$$"}, {"identifier": "D", "content": "$${{11} \\over 6} - {\\log _e}4$$"}]	["D"]	null	$I=\int \frac{d x}{x^{3}\left(x^{2}+2\right)^{2}}$ <br/><br/>$=\frac{1}{4} \int \frac{x}{x^{2}+2} d x+\frac{1}{4} \int \frac{x}{\left(x^{2}+2\right)^{2}}-\frac{1}{4} \int \frac{d x}{x}+\frac{1}{4} \int \frac{d x}{x^{3}}$<br/><br/> $=\frac{1}{8} \ln \left(x^{2}+2\right)-\frac{\ln x}{4}-\frac{1}{8\left(x^{2}+2\right)}-\f...	mcq	jee-main-2023-online-25th-january-evening-shift
1ldu6241m	maths	definite-integration	properties-of-definite-integration	<p>If $$\int\limits_{{1 \over 3}}^3 {\|{{\log }_e}x\|dx = {m \over n}{{\log }_e}\left( {{{{n^2}} \over e}} \right)} $$, where m and n are coprime natural numbers, then $${m^2} + {n^2} - 5$$ is equal to _____________.</p>	[]	null	20	$I=\int\limits_{\frac{1}{3}}^{3}\|\ln x\| d x=-\int\limits_{\frac{1}{3}}^{1} \ln x d x+\int\limits_{1}^{3} \ln x d x$ <br/><br/> $$ \begin{aligned} & \left.=-[x \ln x-x]_{\frac{1}{3}}^{1}+x \ln x-x\right]_{1}^{3} \\\\ & =-\left[(0-1)-\left(\frac{1}{3} \ln 3-\frac{1}{3}\right)\right]+[(3 \ln 3-3)-(0-1)] \\\\ & =\frac{2}{3...	integer	jee-main-2023-online-25th-january-evening-shift
1ldv16kbb	maths	definite-integration	properties-of-definite-integration	<p>The minimum value of the function $$f(x) = \int\limits_0^2 {{e^{\|x - t\|}}dt} $$ is :</p>	[{"identifier": "A", "content": "2"}, {"identifier": "B", "content": "$$2(e-1)$$"}, {"identifier": "C", "content": "$$e(e-1)$$"}, {"identifier": "D", "content": "$$2e-1$$"}]	["B"]	null	$$ f(x)=\int_0^2 e^{\|x-t\|} d t $$<br/><br/> For $x>2$<br/><br/> $$ f(x)=\int_0^2 e^{x-t} d t=e^x\left(1-e^{-2}\right) $$<br/><br/> For $x<0$<br/><br/> $$ f(x)=\int_0^2 e^{t-x} d t=e^{-x}\left(e^2-1\right) $$<br/><br/> For $x \in[0,2]$<br/><br/> $$ \begin{aligned} & f(x)=\int_0^x e^{x-t} d t + \int_x^2 e^{t-x} d t \\\\ ...	mcq	jee-main-2023-online-25th-january-morning-shift
1ldwx9a09	maths	definite-integration	properties-of-definite-integration	<p>$$\int\limits_{{{3\sqrt 2 } \over 4}}^{{{3\sqrt 3 } \over 4}} {{{48} \over {\sqrt {9 - 4{x^2}} }}dx} $$ is equal to :</p>	[{"identifier": "A", "content": "$${\\pi \\over 2}$$"}, {"identifier": "B", "content": "$${\\pi \\over 3}$$"}, {"identifier": "C", "content": "$${\\pi \\over 6}$$"}, {"identifier": "D", "content": "$$2\\pi $$"}]	["D"]	null	$$ \int_{\frac{3 \sqrt{2}}{4}}^{\frac{3 \sqrt{3}}{4}} \frac{48}{\sqrt{9-4 x^2}} d x $$<br/><br/> We have $\int \frac{d x}{\sqrt{a^2-x^2}}=\sin ^{-1} \frac{x}{a}+C$<br/><br/> Hence $\int_{\frac{3 \sqrt{2}}{4}}^{\frac{3 \sqrt{3}}{4}} \frac{48}{\sqrt{9-4 x^2}} d x=\frac{48}{2} \times\left[\sin ^{-1} \frac{2 x}{3}\right]_{...	mcq	jee-main-2023-online-24th-january-evening-shift
1ldyc3v3b	maths	definite-integration	properties-of-definite-integration	<p>The value of $$12\int\limits_0^3 {\left\| {{x^2} - 3x + 2} \right\|dx} $$ is ____________</p>	[]	null	22	<p>Let I = $$\int\limits_0^3 {\|{x^2} - 3x + 2\|dx} $$</p> <p>$$ = \int\limits_0^3 {\|(x - 1)(x - 2)\|dx} $$</p> <p><img src="https://app-content.cdn.examgoal.net/fly/@width/image/1le2gufhw/2197edc8-523a-4ea7-bfd4-68c608ff54fb/16df8b40-ab6c-11ed-b566-111c81fc645a/file-1le2gufhx.png?format=png" data-orsrc="https://app-conte...	integer	jee-main-2023-online-24th-january-morning-shift
1ldyc80xq	maths	definite-integration	properties-of-definite-integration	<p>The value of $${8 \over \pi }\int\limits_0^{{\pi \over 2}} {{{{{(\cos x)}^{2023}}} \over {{{(\sin x)}^{2023}} + {{(\cos x)}^{2023}}}}dx} $$ is ___________</p>	[]	null	2	<p>Let, $$I = {8 \over \pi }\int\limits_0^{{\pi \over 2}} {{{{{(\cos x)}^{2023}}} \over {{{(\sin x)}^{2023}} + {{(\cos x)}^{2023}}}}dx} $$ ..... (1)</p> <p>Using formula,</p> <p>$$\int\limits_a^b {f(x)dx = \int\limits_a^b {f(a + b - x)dx} } $$</p> <p>$$I = {8 \over \pi }\int\limits_0^{{\pi \over 2}} {{{{{\left[ {\cos...	integer	jee-main-2023-online-24th-january-morning-shift
lgnwfxh4	maths	definite-integration	properties-of-definite-integration	If $\int\limits_{0}^{1} \frac{1}{\left(5+2 x-2 x^{2}\right)\left(1+e^{(2-4 x)}\right)} d x=\frac{1}{\alpha} \log _{e}\left(\frac{\alpha+1}{\beta}\right), \alpha, \beta>0$, then $\alpha^{4}-\beta^{4}$ is equal to :	[{"identifier": "A", "content": "-21"}, {"identifier": "B", "content": "21"}, {"identifier": "C", "content": "19"}, {"identifier": "D", "content": "0"}]	["B"]	null	<ol> <li>The given integral is:</li> </ol> <p>$$ I=\int_0^1 \frac{dx}{\left(5+2x-2x^2\right)\left(1+e^{2-4x}\right)} $$ .............(i)</p> <ol> <li>Perform a substitution, $x \rightarrow 1-x$. This gives:</li> </ol> <p>$$ I=\int_0^1 \frac{dx}{\left(5+2(1-x)-2(1-x)^2\right)\left(1+e^{2-4(1-x)}\right)} $$</p> <ol> <li>...	mcq	jee-main-2023-online-15th-april-morning-shift
1lgoxpnhf	maths	definite-integration	properties-of-definite-integration	<p>The value of $${{{e^{ - {\pi \over 4}}} + \int\limits_0^{{\pi \over 4}} {{e^{ - x}}{{\tan }^{50}}xdx} } \over {\int\limits_0^{{\pi \over 4}} {{e^{ - x}}({{\tan }^{49}}x + {{\tan }^{51}}x)dx} }}$$ is</p>	[{"identifier": "A", "content": "51"}, {"identifier": "B", "content": "50"}, {"identifier": "C", "content": "25"}, {"identifier": "D", "content": "49"}]	["B"]	null	<p>We're given the expression:</p> <p>$$\frac{e^{-\pi/4} + \int_0^{\pi / 4} e^{-x} \tan ^{50} x dx}{\int_0^{\pi / 4} e^{-x}(\tan x)^{49} dx + \int_0^{\pi / 4} e^{-x}(\tan x)^{51} dx}$$</p> <p>Notice that the integrals in the numerator and denominator have the same form. They both involve an integral of $e^{-x} \tan...	mcq	jee-main-2023-online-13th-april-evening-shift
1lgoy1rhw	maths	definite-integration	properties-of-definite-integration	<p>Let $$f_{n}=\int_\limits{0}^{\frac{\pi}{2}}\left(\sum_\limits{k=1}^{n} \sin ^{k-1} x\right)\left(\sum_\limits{k=1}^{n}(2 k-1) \sin ^{k-1} x\right) \cos x d x, n \in \mathbb{N}$$. Then $$f_{21}-f_{20}$$ is equal to _________</p>	[]	null	41	Given, $$f_{n}=\int_\limits{0}^{\frac{\pi}{2}}\left(\sum_\limits{k=1}^{n} \sin ^{k-1} x\right)\left(\sum_\limits{k=1}^{n}(2 k-1) \sin ^{k-1} x\right) \cos x d x$$ <br/><br/>$$ \begin{aligned} & \text { Put } \sin x=t \\\\ & \cos x d x=d t \\\\ & f_n=\int_0^1\left(\sum_{k=1}^n(t)^{k-1}\right)\left(\sum_{k=1}^n(2 k-1)(t)...	integer	jee-main-2023-online-13th-april-evening-shift
1lgpy0x97	maths	definite-integration	properties-of-definite-integration	<p>$$\int_\limits{0}^{\infty} \frac{6}{e^{3 x}+6 e^{2 x}+11 e^{x}+6} d x=$$</p>	[{"identifier": "A", "content": "$$\\log _{e}\\left(\\frac{256}{81}\\right)$$"}, {"identifier": "B", "content": "$$\\log _{e}\\left(\\frac{64}{27}\\right)$$"}, {"identifier": "C", "content": "$$\\log _{e}\\left(\\frac{32}{27}\\right)$$"}, {"identifier": "D", "content": "$$\\log _{e}\\left(\\frac{512}{81}\\right)$$"}]	["C"]	null	$$ \begin{aligned} & \mathrm{l}=\int_0^{\infty} \frac{6}{\left(\mathrm{e}^{\mathrm{x}}+1\right)\left(\mathrm{e}^{\mathrm{x}}+2\right)\left(\mathrm{e}^{\mathrm{x}}+3\right)} \mathrm{dx} \\\\ & =6 \int_0^{\infty}\left(\frac{\frac{1}{2}}{\mathrm{e}^{\mathrm{x}}+1}+\frac{-1}{\mathrm{e}^{\mathrm{x}}+2}+\frac{\frac{1}{2}}{\m...	mcq	jee-main-2023-online-13th-april-morning-shift
1lgq0ygkp	maths	definite-integration	properties-of-definite-integration	<p>Let for $$x \in \mathbb{R}, S_{0}(x)=x, S_{k}(x)=C_{k} x+k \int_{0}^{x} S_{k-1}(t) d t$$, where <br/><br/>$$C_{0}=1, C_{k}=1-\int_{0}^{1} S_{k-1}(x) d x, k=1,2,3, \ldots$$ Then $$S_{2}(3)+6 C_{3}$$ is equal to ____________.</p>	[]	null	18	Given, <br/><br/>$$ S_k(x)=C_k x+k \int_0^x S_{k-1}(t) d t $$ <br/><br/>Put $\mathrm{k}=2$ and $\mathrm{x}=3$ <br/><br/>$$ \mathrm{S}_2(3)=\mathrm{C}_2(3)+2 \int_0^3 \mathrm{~S}_1(\mathrm{t}) \mathrm{dt} $$ .........(i) <br/><br/>Also, <br/><br/>$$ \begin{aligned} & S_1(x)=C_1(x)+\int_0^x S_0(t) d t \\\\ & =C_1 x+\frac...	integer	jee-main-2023-online-13th-april-morning-shift
1lgrgllfd	maths	definite-integration	properties-of-definite-integration	<p>If $$\int_\limits{-0.15}^{0.15}\left\|100 x^{2}-1\right\| d x=\frac{k}{3000}$$, then $$k$$ is equal to ___________.</p>	[]	null	575	$$ \int\limits_{-0.15}^{0.15}\left\|100 x^2-1\right\| d x=2 \int\limits_0^{0.15}\left\|100 x^2-1\right\| \mathrm{dx} $$ <br/><br/>$$ \text { Now } 100 x^2-1=0 \Rightarrow x^2=\frac{1}{100} \Rightarrow x=0.1 $$ <br/><br/>$$ I=2\left[\int_0^{0.1}\left(1-100 x^2\right) d x+\int_{0.1}^{0.15}\left(100 x^2-1\right) d x\right] $$...	integer	jee-main-2023-online-12th-april-morning-shift
1lgsvib75	maths	definite-integration	properties-of-definite-integration	<p>If $$f: \mathbb{R} \rightarrow \mathbb{R}$$ be a continuous function satisfying $$\int_\limits{0}^{\frac{\pi}{2}} f(\sin 2 x) \sin x d x+\alpha \int_\limits{0}^{\frac{\pi}{4}} f(\cos 2 x) \cos x d x=0$$, then the value of $$\alpha$$ is :</p>	[{"identifier": "A", "content": "$$-\\sqrt{3}$$"}, {"identifier": "B", "content": "$$\\sqrt{2}$$"}, {"identifier": "C", "content": "$$-\\sqrt{2}$$"}, {"identifier": "D", "content": "$$\\sqrt{3}$$"}]	["C"]	null	The integral equation is given by : <br/><br/>$$\int\limits_0^{\frac{\pi}{2}} f(\sin 2x) \sin x \, dx + \alpha \int\limits_0^{\frac{\pi}{4}} f(\cos 2x) \cos x \, dx = 0$$ <br/><br/>Step 1 : Break the first integral into two parts : <br/><br/>$$I = \int\limits_0^{\frac{\pi}{4}} f(\sin 2x) \sin x \, dx + \int\limits_{...	mcq	jee-main-2023-online-11th-april-evening-shift
1lgsvsu3q	maths	definite-integration	properties-of-definite-integration	<p>Let the function $$f:[0,2] \rightarrow \mathbb{R}$$ be defined as</p> <p>$$f(x)= \begin{cases}e^{\min \left\{x^{2}, x-[x]\right\},} & x \in[0,1) \\ e^{\left[x-\log _{e} x\right]}, & x \in[1,2]\end{cases}$$</p> <p>where $$[t]$$ denotes the greatest integer less than or equal to $$t$$. Then the value of the in...	[{"identifier": "A", "content": "$$2 e-1$$"}, {"identifier": "B", "content": "$$2 e-\\frac{1}{2}$$"}, {"identifier": "C", "content": "$$1+\\frac{3 e}{2}$$"}, {"identifier": "D", "content": "$$(e-1)\\left(e^{2}+\\frac{1}{2}\\right)$$"}]	["B"]	null	$$ \begin{aligned} \operatorname{Minimum}\left\{\mathrm{x}^2,\{\mathrm{x}\}\right\} & =\mathrm{x}^2 ; \mathrm{x} \in[0,1) \\\\ {\left[\mathrm{x}-\log _{\mathrm{e}} \mathrm{x}\right] } & =1 ; \mathrm{x} \in[1,2) \end{aligned} $$ <br/><br/>$$ \therefore \mathrm{f}(\mathrm{x})=\left\{\begin{array}{l} \mathrm{e}^{\mathrm{x...	mcq	jee-main-2023-online-11th-april-evening-shift
1lguu4z56	maths	definite-integration	properties-of-definite-integration	<p>The value of the integral $$\int_\limits{-\log _{e} 2}^{\log _{e} 2} e^{x}\left(\log _{e}\left(e^{x}+\sqrt{1+e^{2 x}}\right)\right) d x$$ is equal to :</p>	[{"identifier": "A", "content": "$$\\log _{e}\\left(\\frac{(2+\\sqrt{5})^{2}}{\\sqrt{1+\\sqrt{5}}}\\right)+\\frac{\\sqrt{5}}{2}$$"}, {"identifier": "B", "content": "$$\\log _{e}\\left(\\frac{\\sqrt{2}(2+\\sqrt{5})^{2}}{\\sqrt{1+\\sqrt{5}}}\\right)-\\frac{\\sqrt{5}}{2}$$"}, {"identifier": "C", "content": "$$\\log _{e}\\...	["B"]	null	$$\int_\limits{-\log _{e} 2}^{\log _{e} 2} e^{x}\left(\log _{e}\left(e^{x}+\sqrt{1+e^{2 x}}\right)\right) d x$$ <br/><br/>Let $e^x=t \Rightarrow e^x d x=d t$ <br/><br/>When, $x \rightarrow-\log _e 2$, then $t \rightarrow \frac{1}{2}$ <br/><br/>When, $x \rightarrow \log _e 2$, then $t \rightarrow 2$ <br/><br/>$$ I=\int_...	mcq	jee-main-2023-online-11th-april-morning-shift
1lguwr95k	maths	definite-integration	properties-of-definite-integration	<p>For $$m, n > 0$$, let $$\alpha(m, n)=\int_\limits{0}^{2} t^{m}(1+3 t)^{n} d t$$. If $$11 \alpha(10,6)+18 \alpha(11,5)=p(14)^{6}$$, then $$p$$ is equal to ___________.</p>	[]	null	32	We have, $\alpha(m, n)=\int\limits_0^2 t^m(1+3 t)^n d t$ <br/><br/>Also, $11 \alpha(10,6)+18 \alpha(11,5)=P(14)^6$ <br/><br/>$\Rightarrow 11 \int\limits_0^2 t^{10}(1+3 t)^6 d t+18 \int\limits_0^2 t^{11}(1+3 t)^5 d t=P(14)^6$ <br/><br/>Using integration by part for expression $t^{10}(1+3 t)^6$ <br/><br/>$$ \begin{array}...	integer	jee-main-2023-online-11th-april-morning-shift
1lgyoktep	maths	definite-integration	properties-of-definite-integration	<p>Let $$[t]$$ denote the greatest integer function. If $$\int_\limits{0}^{2.4}\left[x^{2}\right] d x=\alpha+\beta \sqrt{2}+\gamma \sqrt{3}+\delta \sqrt{5}$$, then $$\alpha+\beta+\gamma+\delta$$ is equal to __________.</p>	[]	null	6	$$ \begin{aligned} \int\limits_0^{2.4}\left[x^2\right] d x & =\int\limits_0^1\left[x^2\right] d x+\int\limits_1^{\sqrt{2}}\left[x^2\right] d x \\\\ & +\int\limits_{\sqrt{2}}^{\sqrt{3}}\left[x^2\right] d x+\int\limits_{\sqrt{3}}^2\left[x^2\right] d x+\int\limits_2^{\sqrt{5}}\left[x^2\right] d x+\int\limits_{\sqrt{5}}^{2...	integer	jee-main-2023-online-8th-april-evening-shift
1lh0010vg	maths	definite-integration	properties-of-definite-integration	<p>Let $$[t]$$ denote the greatest integer $$\leq t$$. Then $$\frac{2}{\pi} \int_\limits{\pi / 6}^{5 \pi / 6}(8[\operatorname{cosec} x]-5[\cot x]) d x$$ is equal to __________.</p>	[]	null	14	$$ \begin{aligned} & \text { Let } \mathrm{I}=\frac{2}{\pi} \int\limits_{\frac{\pi}{6}}^{ \frac{5\pi}{6}}\{8[\operatorname{cosec} x]-5[\cot x]\} d x \\\\ & =\frac{2}{\pi}\left[8 \int\limits_{\frac{\pi}{6}}^{\frac{5 \pi}{6}}[\operatorname{cosec} x] d x-5 \int\limits_{\frac{\pi}{6}}^{\frac{5 \pi}{6}}[\cot x] d x\right] \...	integer	jee-main-2023-online-8th-april-morning-shift
1lh21dq8w	maths	definite-integration	properties-of-definite-integration	<p>Let $$5 f(x)+4 f\left(\frac{1}{x}\right)=\frac{1}{x}+3, x > 0$$. Then $$18 \int_\limits{1}^{2} f(x) d x$$ is equal to :</p>	[{"identifier": "A", "content": "$$10 \\log _{\\mathrm{e}} 2+6$$"}, {"identifier": "B", "content": "$$5 \\log _{e} 2-3$$"}, {"identifier": "C", "content": "$$10 \\log _{\\mathrm{e}} 2-6$$"}, {"identifier": "D", "content": "$$5 \\log _{\\mathrm{e}} 2+3$$"}]	["C"]	null	We have, <br/><br/>$$ 5 f(x)+4 f\left(\frac{1}{x}\right)=\frac{1}{x}+3, x>0 $$ ..........(i) <br/><br/>On replacing $x$ by $\frac{1}{x}$ in (i), we get <br/><br/>$$ 5 f\left(\frac{1}{x}\right)+4 f(x)=x+3 $$ ..........(ii) <br/><br/>Now, using Eq. (i) $\times 5-$ (ii) $\times 4$, we get <br/><br/>$$ \begin{aligned} & 25...	mcq	jee-main-2023-online-6th-april-morning-shift
1lh2y8vvh	maths	definite-integration	properties-of-definite-integration	<p>Let $$f(x)$$ be a function satisfying $$f(x)+f(\pi-x)=\pi^{2}, \forall x \in \mathbb{R}$$. Then $$\int_\limits{0}^{\pi} f(x) \sin x d x$$ is equal to :</p>	[{"identifier": "A", "content": "$$\\pi^{2}$$"}, {"identifier": "B", "content": "$$\\frac{\\pi^{2}}{2}$$"}, {"identifier": "C", "content": "$$2 \\pi^{2}$$"}, {"identifier": "D", "content": "$$\\frac{\\pi^{2}}{4}$$"}]	["A"]	null	Let $I=\int\limits_0^\pi f(x) \sin x d x$ ..........(i) <br/><br/>$$ \begin{aligned} & =\int\limits_0^\pi f(\pi-x) \sin (\pi-x) d x \\\\ & =\int\limits_0^\pi f(\pi-x) \sin x d x ........(ii) \end{aligned} $$ <br/><br/>On adding Equations (i) and (ii), we get <br/><br/>$$ \begin{aligned} & 2 I=\int\limits_0^\pi[f(x)+f(\...	mcq	jee-main-2023-online-6th-april-evening-shift
lsam93zl	maths	definite-integration	properties-of-definite-integration	If $\int\limits_0^{\frac{\pi}{3}} \cos ^4 x \mathrm{~d} x=\mathrm{a} \pi+\mathrm{b} \sqrt{3}$, where $\mathrm{a}$ and $\mathrm{b}$ are rational numbers, then $9 \mathrm{a}+8 \mathrm{b}$ is equal to :	[{"identifier": "A", "content": "2"}, {"identifier": "B", "content": "1"}, {"identifier": "C", "content": "3"}, {"identifier": "D", "content": "$\\frac{3}{2}$"}]	["A"]	null	<p>To solve the given integral $\int\limits_0^{\frac{\pi}{3}} \cos ^4 x \mathrm{~d} x$, we'll apply a known power-reduction formula that allows us to express even powers of sine and cosine functions in terms of cosine of multiple angles. Specifically for $\cos^4 x$, we can write it in terms of double angles as:</p>...	mcq	jee-main-2024-online-1st-february-evening-shift
lsamq77b	maths	definite-integration	properties-of-definite-integration	The value of $\int\limits_0^1\left(2 x^3-3 x^2-x+1\right)^{\frac{1}{3}} \mathrm{~d} x$ is equal to :	[{"identifier": "A", "content": "-1"}, {"identifier": "B", "content": "2"}, {"identifier": "C", "content": "0"}, {"identifier": "D", "content": "1"}]	["C"]	null	$\begin{aligned} & I=\int_0^1\left(2 x^3-3 x^2-x+1\right)^{1 / 3} d x \\\\ & I=\int_0^1\left((2 x-1)\left(x^2-x-1\right)\right)^{1 / 3} d x \\\\ & I=\int_0^1\left[(2(1-x)-1)\left((1-x)^2-(1-x)-1\right)\right]^{1 / 3} d x \\\\ & I=\int_0^1\left((1-2 x)\left(x^2-x-1\right)\right)^{1 / 3} d x\end{aligned}$ <br/><br/>$\beg...	mcq	jee-main-2024-online-1st-february-evening-shift
lsao9n4x	maths	definite-integration	properties-of-definite-integration	The value of the integral $\int\limits_0^{\pi / 4} \frac{x \mathrm{~d} x}{\sin ^4(2 x)+\cos ^4(2 x)}$ equals :	[{"identifier": "A", "content": "$\\frac{\\sqrt{2} \\pi^2}{8}$"}, {"identifier": "B", "content": "$\\frac{\\sqrt{2} \\pi^2}{16}$"}, {"identifier": "C", "content": "$\\frac{\\sqrt{2} \\pi^2}{32}$"}, {"identifier": "D", "content": "$\\frac{\\sqrt{2} \\pi^2}{64}$"}]	["C"]	null	Take $I=\int\limits_0^{\pi / 4} \frac{x d x}{\sin ^4(2 x)+\cos ^4(2 x)}$ <br/><br/>Let $2 x=t$ <br/><br/>$2 d x=d t$ <br/><br/>$d x=\frac{d t}{2}$ <br/><br/>$\begin{aligned} & I=\int\limits_0^{\pi / 2} \frac{t / 2 \cdot 1 / 2 d t}{\sin ^4 t+\cos ^4 t} \\\\ & I=\frac{1}{4} \int\limits_0^{\pi / 2} \frac{t d t}{\sin ^4 t+...	mcq	jee-main-2024-online-1st-february-morning-shift
lsaq6l6n	maths	definite-integration	properties-of-definite-integration	If $\int\limits_{-\pi / 2}^{\pi / 2} \frac{8 \sqrt{2} \cos x \mathrm{~d} x}{\left(1+\mathrm{e}^{\sin x}\right)\left(1+\sin ^4 x\right)}=\alpha \pi+\beta \log _{\mathrm{e}}(3+2 \sqrt{2})$, where $\alpha, \beta$ are integers, then $\alpha^2+\beta^2$ equals :	[]	null	8	$$ I=\int\limits_{-\frac{\pi}{2}}^{\frac{\pi}{2}} \frac{8 \sqrt{2} \cos x}{\left(1+e^{\sin x}\right)\left(1+\sin ^4 x\right)} d x $$ ............(1) <br/><br/>Apply king's rule <br/><br/>$$ I=\int\limits_{-\frac{\pi}{2}}^{\frac{\pi}{2}} \frac{8 \sqrt{2} \cos x\left(e^{\sin x}\right)}{\left(1+e^{\sin x}\right)\left(1+\...	integer	jee-main-2024-online-1st-february-morning-shift
lsbke98l	maths	definite-integration	properties-of-definite-integration	If $\int\limits_0^1 \frac{1}{\sqrt{3+x}+\sqrt{1+x}} \mathrm{~d} x=\mathrm{a}+\mathrm{b} \sqrt{2}+\mathrm{c} \sqrt{3}$, where $\mathrm{a}, \mathrm{b}, \mathrm{c}$ are rational numbers, then $2 \mathrm{a}+3 \mathrm{~b}-4 \mathrm{c}$ is equal to :	[{"identifier": "A", "content": "10"}, {"identifier": "B", "content": "7"}, {"identifier": "C", "content": "4"}, {"identifier": "D", "content": "8"}]	["D"]	null	<p>$$\begin{aligned} & \int_\limits0^1 \frac{1}{\sqrt{3+x}+\sqrt{1+x}} d x=\int_\limits0^1 \frac{\sqrt{3+x}-\sqrt{1+x}}{(3+x)-(1+x)} d x \\ & \frac{1}{2}\left[\int_\limits0^1 \sqrt{3+x} d x-\int_\limits0^1(\sqrt{1+x}) d x\right] \end{aligned}$$</p> <p>$$\begin{aligned} & \frac{1}{2}\left[2 \frac{(3+x)^{\frac{3}{2}}}{3}...	mcq	jee-main-2024-online-27th-january-morning-shift
lsbkjqqv	maths	definite-integration	properties-of-definite-integration	If $(a, b)$ be the orthocentre of the triangle whose vertices are $(1,2),(2,3)$ and $(3,1)$, and $\mathrm{I}_1=\int\limits_{\mathrm{a}}^{\mathrm{b}} x \sin \left(4 x-x^2\right) \mathrm{d} x, \mathrm{I}_2=\int\limits_{\mathrm{a}}^{\mathrm{b}} \sin \left(4 x-x^2\right) \mathrm{d} x$, then $36 \frac{\mathrm{I}_1}{\mathrm{...	[{"identifier": "A", "content": "80"}, {"identifier": "B", "content": "72"}, {"identifier": "C", "content": "66"}, {"identifier": "D", "content": "88"}]	["B"]	null	<p>Equation of CE</p> <p>$$\begin{aligned} & y-1=-(x-3) \\ & x+y=4 \end{aligned}$$</p> <p><img src="https://app-content.cdn.examgoal.net/fly/@width/image/1lt1cekv6/bbd7771e-59aa-40fe-80f6-e5c8fe8d22a7/2f978020-d3c5-11ee-a50b-bb659a2e1d74/file-1lt1cekv7.png?format=png" data-orsrc="https://app-content.cdn.examgoa...	mcq	jee-main-2024-online-27th-january-morning-shift
jaoe38c1lscnv0ux	maths	definite-integration	properties-of-definite-integration	<p>For $$0 < \mathrm{a} < 1$$, the value of the integral $$\int_\limits0^\pi \frac{\mathrm{d} x}{1-2 \mathrm{a} \cos x+\mathrm{a}^2}$$ is :</p>	[{"identifier": "A", "content": "$$\\frac{\\pi^2}{\\pi+a^2}$$\n"}, {"identifier": "B", "content": "$$\\frac{\\pi^2}{\\pi-a^2}$$\n"}, {"identifier": "C", "content": "$$\\frac{\\pi}{1-\\mathrm{a}^2}$$\n"}, {"identifier": "D", "content": "$$\\frac{\\pi}{1+\\mathrm{a}^2}$$"}]	["C"]	null	<p>$$\begin{aligned} & I=\int_\limits0^\pi \frac{d x}{1-2 a \cos x+a^2} ; 0< a<1 \\ & I=\int_\limits0^\pi \frac{d x}{1+2 a \cos x+a^2} \\ & 2 I=2 \int_\limits0^{\pi / 2} \frac{2\left(1+a^2\right)}{\left(1+a^2\right)^2-4 a^2 \cos ^2 x} d x \\ & \Rightarrow I=\int_\limits0^{\pi / 2} \frac{2\left(1+a^2\right) \cdot \sec ^...	mcq	jee-main-2024-online-27th-january-evening-shift
jaoe38c1lscoi3t2	maths	definite-integration	properties-of-definite-integration	<p>Let $$f(x)=\int_\limits0^x g(t) \log _{\mathrm{e}}\left(\frac{1-\mathrm{t}}{1+\mathrm{t}}\right) \mathrm{dt}$$, where $$g$$ is a continuous odd function. If $$\int_{-\pi / 2}^{\pi / 2}\left(f(x)+\frac{x^2 \cos x}{1+\mathrm{e}^x}\right) \mathrm{d} x=\left(\frac{\pi}{\alpha}\right)^2-\alpha$$, then $$\alpha$$ is equal...	[]	null	2	<p>$$f(x)=\int_\limits0^x g(t) \ln \left(\frac{1-t}{1+t}\right) d t$$</p> <p>$$f(-x)=\int_\limits0^{-x} g(t) \ln \left(\frac{1-t}{1+t}\right) d t$$</p> <p>$$f(-x)=-\int_\limits0^x g(-y) \ln \left(\frac{1+y}{1-y}\right) d y$$</p> <p>$$=-\int_\limits0^x g(y) \ln \left(\frac{1-y}{1+y}\right) d y$$ (g is odd)</p> <p>$$f(-x...	integer	jee-main-2024-online-27th-january-evening-shift
jaoe38c1lsd4i9ml	maths	definite-integration	properties-of-definite-integration	<p>Let $$f, g:(0, \infty) \rightarrow \mathbb{R}$$ be two functions defined by $$f(x)=\int\limits_{-x}^x\left(\|t\|-t^2\right) e^{-t^2} d t$$ and $$g(x)=\int\limits_0^{x^2} t^{1 / 2} e^{-t} d t$$. Then, the value of $$9\left(f\left(\sqrt{\log _e 9}\right)+g\left(\sqrt{\log _e 9}\right)\right)$$ is equal to :</p>	[{"identifier": "A", "content": "10"}, {"identifier": "B", "content": "9"}, {"identifier": "C", "content": "8"}, {"identifier": "D", "content": "6"}]	["C"]	null	<p>$$\begin{aligned} & \mathrm{f}(\mathrm{x})=\int_\limits{-\mathrm{x}}^{\mathrm{x}}\left(\|\mathrm{t}\|-\mathrm{t}^2\right) \mathrm{e}^{-\mathrm{t}^2} \mathrm{dt} \\ & \Rightarrow \mathrm{f}^{\prime}(\mathrm{x})=2 \cdot\left(\|\mathrm{x}\|-\mathrm{x}^2\right) \mathrm{e}^{-\mathrm{x}^2} \ldots \ldots \ldots . .(1) \\ & \ma...	mcq	jee-main-2024-online-31st-january-evening-shift
jaoe38c1lsd4ywg3	maths	definite-integration	properties-of-definite-integration	<p>$$\left\|\frac{120}{\pi^3} \int_\limits0^\pi \frac{x^2 \sin x \cos x}{\sin ^4 x+\cos ^4 x} d x\right\| \text { is equal to }$$ ________.</p>	[]	null	15	<p>$$\begin{aligned} & \int_\limits0^\pi \frac{x^2 \sin x \cdot \cos x}{\sin ^4 x+\cos ^4 x} d x \\ & =\int_\limits0^{\frac{\pi}{2}} \frac{\sin x \cdot \cos x}{\sin ^4 x+\cos ^4 x}\left(x^2-(\pi-x)^2\right) d x \\ & =\int_\limits0^{\frac{\pi}{2}} \frac{\sin x \cdot \cos x\left(2 \pi x-\pi^2\right)}{\sin ^4 x+\cos ^4 x}...	integer	jee-main-2024-online-31st-january-evening-shift
jaoe38c1lse5tymd	maths	definite-integration	properties-of-definite-integration	<p>If the integral $$525 \int_\limits0^{\frac{\pi}{2}} \sin 2 x \cos ^{\frac{11}{2}} x\left(1+\operatorname{Cos}^{\frac{5}{2}} x\right)^{\frac{1}{2}} d x$$ is equal to $$(n \sqrt{2}-64)$$, then $$n$$ is equal to _________.</p>	[]	null	176	<p>$$I=\int_\limits0^{\frac{\pi}{2}} \sin 2 x \cdot(\cos x)^{\frac{11}{2}}\left(1+(\cos x)^{\frac{5}{2}}\right)^{\frac{1}{2}} d x$$</p> <p>Put $$\cos x=t^2 \Rightarrow \sin x d x=-2 t d t$$</p> <p>$$\begin{aligned} & \therefore \mathrm{I}=4 \int_\limits0^1 \mathrm{t}^2 \cdot \mathrm{t}^{11} \sqrt{\left(1+\mathrm{t}^5\r...	integer	jee-main-2024-online-31st-january-morning-shift
jaoe38c1lse60n68	maths	definite-integration	properties-of-definite-integration	<p>Let $$f: \mathbb{R} \rightarrow \mathbb{R}$$ be a function defined by $$f(x)=\frac{4^x}{4^x+2}$$ and $$M=\int_\limits{f(a)}^{f(1-a)} x \sin ^4(x(1-x)) d x, N=\int_\limits{f(a)}^{f(1-a)} \sin ^4(x(1-x)) d x ; a \neq \frac{1}{2}$$. If $$\alpha M=\beta N, \alpha, \beta \in \mathbb{N}$$, then the least value of $$\alpha...	[]	null	5	<p>$$\mathrm{f}(\mathrm{a})+\mathrm{f}(1-\mathrm{a})=1$$</p> <p>$$M=\int_\limits{f(a)}^{f(1-a)}(1-x) \cdot \sin ^4 x(1-x) d x$$</p> <p>$$\mathrm{M}=\mathrm{N}-\mathrm{M} \qquad 2 \mathrm{M}=\mathrm{N}$$</p> <p>$$\alpha=2 ; \beta=1 \text {; }$$</p> <p>Ans. 5</p>	integer	jee-main-2024-online-31st-january-morning-shift
jaoe38c1lsf0gf9u	maths	definite-integration	properties-of-definite-integration	<p>If the value of the integral $$\int_\limits{-\frac{\pi}{2}}^{\frac{\pi}{2}}\left(\frac{x^2 \cos x}{1+\pi^x}+\frac{1+\sin ^2 x}{1+e^{\sin x^{2123}}}\right) d x=\frac{\pi}{4}(\pi+a)-2$$, then the value of $$a$$ is</p>	[{"identifier": "A", "content": "$$-\\frac{3}{2}$$\n"}, {"identifier": "B", "content": "3"}, {"identifier": "C", "content": "$$\\frac{3}{2}$$\n"}, {"identifier": "D", "content": "2"}]	["B"]	null	<p>$$\begin{aligned} & I=\int_\limits{-\pi / 2}^{\pi / 2}\left(\frac{x^2 \cos x}{1+\pi^x}+\frac{1+\sin ^2 x}{1+e^{\sin x^{2023}}}\right) d x \\ & I=\int_\limits{-\pi / 2}^{\pi / 2}\left(\frac{x^2 \cos x}{1+\pi^{-x}}+\frac{1+\sin ^2 x}{1+e^{\sin (-x)^{2023}}}\right) d x \end{aligned}$$</p> <p>On Adding, we get</p> <p>$$...	mcq	jee-main-2024-online-29th-january-morning-shift
jaoe38c1lsflco0v	maths	definite-integration	properties-of-definite-integration	<p>If $$\int_\limits{\frac{\pi}{6}}^{\frac{\pi}{3}} \sqrt{1-\sin 2 x} d x=\alpha+\beta \sqrt{2}+\gamma \sqrt{3}$$, where $$\alpha, \beta$$ and $$\gamma$$ are rational numbers, then $$3 \alpha+4 \beta-\gamma$$ is equal to _________.</p>	[]	null	6	<p>$$\begin{aligned} & =\int_\limits{\frac{\pi}{6}}^{\frac{\pi}{3}} \sqrt{1-\sin 2 x} d x \\ & =\int_\limits{\frac{\pi}{6}}^{\frac{\pi}{3}}\|\sin x-\cos x\| d x \\ & =\int_\limits{\frac{\pi}{6}}^{\frac{\pi}{4}}(\cos x-\sin x) d x+\int_\limits{\frac{\pi}{4}}^{\frac{\pi}{3}}(\sin x-\cos x) d x \\ & =-1+2 \sqrt{2}-\sqrt{3} ...	integer	jee-main-2024-online-29th-january-evening-shift
1lsg3nvgv	maths	definite-integration	properties-of-definite-integration	<p>Let $$f: \mathbb{R} \rightarrow \mathbb{R}$$ be a function defined by $$f(x)=\frac{x}{\left(1+x^4\right)^{1 / 4}}$$, and $$g(x)=f(f(f(f(x))))$$. Then, $$18 \int_0^{\sqrt{2 \sqrt{5}}} x^2 g(x) d x$$ is equal to</p>	[{"identifier": "A", "content": "36"}, {"identifier": "B", "content": "33"}, {"identifier": "C", "content": "39"}, {"identifier": "D", "content": "42"}]	["C"]	null	<p>$$\begin{aligned} &f(x)=\frac{x}{\left(1+x^4\right)^{1 / 4}}\\ &f \circ f(x)=\frac{f(x)}{\left(1+f(x)^4\right)^{1 / 4}}=\frac{\frac{x}{\left(1+x^4\right)^{1 / 4}}}{\left(1+\frac{x^4}{1+x^4}\right)^{1 / 4}}=\frac{x}{\left(1+2 x^4\right)^{1 / 4}}\\ &f(f(f(f(x))))=\frac{x}{\left(1+4 x^4\right)^{1 / 4}} \end{aligned}$$<...	mcq	jee-main-2024-online-30th-january-evening-shift
1lsg3stoy	maths	definite-integration	properties-of-definite-integration	<p>Let $$y=f(x)$$ be a thrice differentiable function in $$(-5,5)$$. Let the tangents to the curve $$y=f(x)$$ at $$(1, f(1))$$ and $$(3, f(3))$$ make angles $$\pi / 6$$ and $$\pi / 4$$, respectively with positive $$x$$-axis. If $$27 \int_\limits1^3\left(\left(f^{\prime}(t)\right)^2+1\right) f^{\prime \prime}(t) d t=\al...	[{"identifier": "A", "content": "26"}, {"identifier": "B", "content": "$$-$$16"}, {"identifier": "C", "content": "36"}, {"identifier": "D", "content": "$$-$$14"}]	["A"]	null	<p>$$\begin{aligned} & y=f(x) \Rightarrow \frac{d y}{d x}=f^{\prime}(x) \\ & \left.\frac{d y}{d x}\right)_{(1, f(1))}=f^{\prime}(1)=\tan \frac{\pi}{6}=\frac{1}{\sqrt{3}} \Rightarrow f^{\prime}(1)=\frac{1}{\sqrt{3}} \\ & \left.\frac{d y}{d x}\right)_{(3, f(3))}=f^{\prime}(3)=\tan \frac{\pi}{4}=1 \Rightarrow f^{\prime}(3...	mcq	jee-main-2024-online-30th-january-evening-shift
1lsg420oq	maths	definite-integration	properties-of-definite-integration	<p>Let $$a$$ and $$b$$ be real constants such that the function $$f$$ defined by $$f(x)=\left\{\begin{array}{ll}x^2+3 x+a & , x \leq 1 \\ b x+2 & , x>1\end{array}\right.$$ be differentiable on $$\mathbb{R}$$. Then, the value of $$\int_\limits{-2}^2 f(x) d x$$ equals</p>	[{"identifier": "A", "content": "21"}, {"identifier": "B", "content": "19/6"}, {"identifier": "C", "content": "17"}, {"identifier": "D", "content": "15/6"}]	["C"]	null	<p>To determine the integral of the piecewise function <span class="math-container">$$f$$</span> over the interval <span class="math-container">$$[-2, 2]$$</span>, we first ensure that <span class="math-container">$$f$$</span> is differentiable on <span class="math-container">$$\mathbb{R}$$</span>, as given in the prob...	mcq	jee-main-2024-online-30th-january-evening-shift
1lsga9myw	maths	definite-integration	properties-of-definite-integration	<p>Let $$f:\left[-\frac{\pi}{2}, \frac{\pi}{2}\right] \rightarrow \mathbf{R}$$ be a differentiable function such that $$f(0)=\frac{1}{2}$$. If the $$\lim _\limits{x \rightarrow 0} \frac{x \int_0^x f(\mathrm{t}) \mathrm{dt}}{\mathrm{e}^{x^2}-1}=\alpha$$, then $$8 \alpha^2$$ is equal to :</p>	[{"identifier": "A", "content": "4"}, {"identifier": "B", "content": "2"}, {"identifier": "C", "content": "1"}, {"identifier": "D", "content": "16"}]	["B"]	null	<p>$$\begin{aligned} & \lim _{x \rightarrow 0} \frac{x \int_0^x f(t) d t}{\left(\frac{e^{x^2}-1}{x^2}\right) \times x^2} \\\\ & \lim _{x \rightarrow 0} \frac{\int_0^x f(t) d t}{x} \quad\left(\lim _{x \rightarrow 0} \frac{e^{x^2}-1}{x^2}=1\right) \\\\ & =\lim _{x \rightarrow 0} \frac{f(x)}{1} \text { (using L Hospital) ...	mcq	jee-main-2024-online-30th-january-morning-shift
1lsgchdrl	maths	definite-integration	properties-of-definite-integration	<p>The value of $$9 \int_\limits0^9\left[\sqrt{\frac{10 x}{x+1}}\right] \mathrm{d} x$$, where $$[t]$$ denotes the greatest integer less than or equal to $$t$$, is</p>	[]	null	155	<p>$$\begin{array}{ll} \frac{10 x}{x+1}=1 & \Rightarrow x=\frac{1}{9} \\ \frac{10 x}{x+1}=4 & \Rightarrow x=\frac{2}{3} \\ \frac{10 x}{x+1}=9 & \Rightarrow x=9 \end{array}$$</p> <p>$$\begin{aligned} & \mathrm{I}=9\left(\int_\limits0^{1 / 9} 0 \mathrm{dx}+\int_\limits{1 / 9}^{2 / 3} 1\mathrm{d} x+\int_\limits{2 / 3}^9 2...	integer	jee-main-2024-online-30th-january-morning-shift
luxwehsa	maths	definite-integration	properties-of-definite-integration	<p>The integral $$\int_\limits{1 / 4}^{3 / 4} \cos \left(2 \cot ^{-1} \sqrt{\frac{1-x}{1+x}}\right) d x$$ is equal to</p>	[{"identifier": "A", "content": "$$-1/2$$"}, {"identifier": "B", "content": "$$-1/4$$"}, {"identifier": "C", "content": "1/4"}, {"identifier": "D", "content": "1/2"}]	["B"]	null	<p>$$\begin{aligned} & \int_\limits{\frac{1}{4}}^{\frac{3}{4}} \cos \left(2 \cot ^{-1} \sqrt{\frac{1-x}{1+x}}\right) d x \\ & x=\cos 2 \theta \\ & \Rightarrow d x=(-2 \sin 2 \theta \mathrm{d} \theta) \end{aligned}$$</p> <p>Take limit as $$\alpha$$ and $$\beta$$</p> <p>$$\begin{aligned} & -2 \int_\limits\alpha^\beta \co...	mcq	jee-main-2024-online-9th-april-evening-shift
luxwdx2t	maths	definite-integration	properties-of-definite-integration	<p>The value of the integral $$\int_\limits{-1}^2 \log _e\left(x+\sqrt{x^2+1}\right) d x$$ is</p>	[{"identifier": "A", "content": "$$\\sqrt{5}-\\sqrt{2}+\\log _e\\left(\\frac{7+4 \\sqrt{5}}{1+\\sqrt{2}}\\right)$$\n"}, {"identifier": "B", "content": "$$\\sqrt{2}-\\sqrt{5}+\\log _e\\left(\\frac{7+4 \\sqrt{5}}{1+\\sqrt{2}}\\right)$$\n"}, {"identifier": "C", "content": "$$\\sqrt{5}-\\sqrt{2}+\\log _e\\left(\\frac{9+4 \...	["D"]	null	<p>$$\begin{aligned} & \int_\limits{-1}^2 \log _e\left(x+\sqrt{x^2+1}\right) d x \\ & =\left[x \log _e\left(x+\sqrt{x^2+1}\right)\right]_{-1}^2-\int_\limits{-1}^2 \frac{x}{\left(x+\sqrt{x^2+1}\right)}\left(1+\frac{x}{\sqrt{x^2+1}}\right) d x \\ & =2 \log _2(2+\sqrt{5})+\log _e(\sqrt{2}-1)-\int_\limits{-1}^2 \frac{x}{\s...	mcq	jee-main-2024-online-9th-april-evening-shift
lv0vxbpa	maths	definite-integration	properties-of-definite-integration	<p>$$\text { Let } f(x)=\left\{\begin{array}{lr} -2, & -2 \leq x \leq 0 \\ x-2, & 0< x \leq 2 \end{array} \text { and } \mathrm{h}(x)=f(\|x\|)+\|f(x)\| \text {. Then } \int_\limits{-2}^2 \mathrm{~h}(x) \mathrm{d} x\right. \text { is equal to: }$$</p>	[{"identifier": "A", "content": "2"}, {"identifier": "B", "content": "6"}, {"identifier": "C", "content": "4"}, {"identifier": "D", "content": "1"}]	["A"]	null	<p>$$f(x)=\left\{\begin{array}{cc} -2 & -2 \leq x \leq 0 \\ x-2 & 0< x \leq 2 \end{array} h(x)=f\|x\|+\|f(x)\|\right.$$</p> <p><img src="https://app-content.cdn.examgoal.net/fly/@width/image/1lwk8ygqe/f2db7258-aa84-4e80-8605-2f6185c78c16/3e8a8d60-198f-11ef-b65b-abc5d1349d93/file-1lwk8ygqf.png?format=png" data-or...	mcq	jee-main-2024-online-4th-april-morning-shift
lv0vxdgv	maths	definite-integration	properties-of-definite-integration	<p>If the shortest distance between the lines $$\frac{x+2}{2}=\frac{y+3}{3}=\frac{z-5}{4}$$ and $$\frac{x-3}{1}=\frac{y-2}{-3}=\frac{z+4}{2}$$ is $$\frac{38}{3 \sqrt{5}} \mathrm{k}$$, and $$\int_\limits 0^{\mathrm{k}}\left[x^2\right] \mathrm{d} x=\alpha-\sqrt{\alpha}$$, where $$[x]$$ denotes the greatest integer functi...	[]	null	48	<p>$$L_1: \frac{x+2}{2}=\frac{y+3}{3}=\frac{z-5}{4}$$</p> <p>$$\begin{aligned} & \vec{b}_1=2 \hat{i}+3 \hat{j}+4 \hat{k} \\ & \vec{a}_1=-2 \hat{i}-3 \hat{j}+5 \hat{k} \end{aligned}$$</p> <p>$$L_2=\frac{x-3}{1}=\frac{y-2}{-3}=\frac{z+4}{2}$$</p> <p>$$\begin{aligned} & \vec{a}_2=3 \hat{i}+2 \hat{j}-4 \hat{k} \\ & \vec{b...	integer	jee-main-2024-online-4th-april-morning-shift
lv0vxdop	maths	definite-integration	properties-of-definite-integration	<p>If $$\int_0^{\frac{\pi}{4}} \frac{\sin ^2 x}{1+\sin x \cos x} \mathrm{~d} x=\frac{1}{\mathrm{a}} \log _{\mathrm{e}}\left(\frac{\mathrm{a}}{3}\right)+\frac{\pi}{\mathrm{b} \sqrt{3}}$$, where $$\mathrm{a}, \mathrm{b} \in \mathrm{N}$$, then $$\mathrm{a}+\mathrm{b}$$ is equal to _________.</p>	[]	null	8	<p>$$I=\int_\limits0^{\frac{\pi}{4}} \frac{\sin ^2 x}{1+\sin x \cos x} d x=\int_\limits0^{\frac{\pi}{4}} \frac{\sin ^2 x}{\sin ^2 x+\cos ^2 x+\sin x \cos x} d x$$ <p>$$I=\int_\limits0^{\frac{\pi}{4}} \frac{\tan ^2 x}{1+\tan x+\tan ^2 x} d x$$</p> <p>$$=\int_\limits0^{\frac{\pi}{4}} \frac{\tan x \cdot \sec ^2 x d x}{\le...	integer	jee-main-2024-online-4th-april-morning-shift
lv2ers9h	maths	definite-integration	properties-of-definite-integration	<p>If the value of the integral $$\int\limits_{-1}^1 \frac{\cos \alpha x}{1+3^x} d x$$ is $$\frac{2}{\pi}$$.Then, a value of $$\alpha$$ is</p>	[{"identifier": "A", "content": "$$\\frac{\\pi}{2}$$\n"}, {"identifier": "B", "content": "$$\\frac{\\pi}{4}$$\n"}, {"identifier": "C", "content": "$$\\frac{\\pi}{3}$$\n"}, {"identifier": "D", "content": "$$\\frac{\\pi}{6}$$"}]	["A"]	null	<p>$$\begin{aligned} & \text { Given, } \int_\limits{-1}^1 \frac{\cos \alpha x}{1+3^x} d x=\frac{2}{\pi} \\ & \begin{aligned} I & =\int_\limits{-1}^1 \frac{\cos \alpha x}{1+3^x} d x \\ \Rightarrow I & =\int_\limits0^1\left(\frac{\cos \alpha x}{1+3^x}+\frac{\cos \alpha x}{1+3^{-x}}\right) d x \\ & =\int_\limits0^1 \cos ...	mcq	jee-main-2024-online-4th-april-evening-shift
lv3vefcu	maths	definite-integration	properties-of-definite-integration	<p>Let $$\int_\limits\alpha^{\log _e 4} \frac{\mathrm{d} x}{\sqrt{\mathrm{e}^x-1}}=\frac{\pi}{6}$$. Then $$\mathrm{e}^\alpha$$ and $$\mathrm{e}^{-\alpha}$$ are the roots of the equation :</p>	[{"identifier": "A", "content": "$$2 x^2-5 x+2=0$$\n"}, {"identifier": "B", "content": "$$x^2-2 x-8=0$$\n"}, {"identifier": "C", "content": "$$2 x^2-5 x-2=0$$\n"}, {"identifier": "D", "content": "$$x^2+2 x-8=0$$"}]	["A"]	null	<p>$$\begin{aligned} & \text { Let } \sqrt{e^x-1}=t \\ & e^x-1=t^2 \\ & e^x=1+t^2 \\ & e^x=0+2 t-\frac{d t}{d x} \\ & \frac{d t}{d x}=\frac{e^x}{2 t}=\frac{t^2+1}{2 t} \\ & I=\int \frac{2 t}{t\left(1+t^2\right)} d t=2 \tan ^{-1} t \\ & \Rightarrow \quad I=\int_\limits\alpha^{\log ^4} \frac{d x}{\sqrt{e^x-1}} \\ & I=\le...	mcq	jee-main-2024-online-8th-april-evening-shift
lv5grw2g	maths	definite-integration	properties-of-definite-integration	<p>The value of $$k \in \mathbb{N}$$ for which the integral $$I_n=\int_0^1\left(1-x^k\right)^n d x, n \in \mathbb{N}$$, satisfies $$147 I_{20}=148 I_{21}$$ is</p>	[{"identifier": "A", "content": "8"}, {"identifier": "B", "content": "14"}, {"identifier": "C", "content": "7"}, {"identifier": "D", "content": "10"}]	["C"]	null	<p>$$\begin{aligned} & I(21)=\int_\limits0^1\left(1-x^k\right)^{21} d x \\ & =\int_\limits0^1\left(1-x^k\right)\left(1-x^k\right)^{20} d x \\ & =\int_\limits0^1\left(1-x^k\right)^{20} d x-\int_0 x^k\left(1-x^k\right)^{20} d x \\ & I(21)=I(20)-\int_\limits0^1 x^k\left(1-x^k\right)^{20} d x \end{aligned}$...	mcq	jee-main-2024-online-8th-april-morning-shift
lv7v4o3r	maths	definite-integration	properties-of-definite-integration	<p>The integral $$\int_\limits0^{\pi / 4} \frac{136 \sin x}{3 \sin x+5 \cos x} \mathrm{~d} x$$ is equal to :</p>	[{"identifier": "A", "content": "$$3 \\pi-50 \\log _e 2+20 \\log _e 5$$\n"}, {"identifier": "B", "content": "$$3 \\pi-25 \\log _e 2+10 \\log _e 5$$\n"}, {"identifier": "C", "content": "$$3 \\pi-10 \\log _{\\mathrm{e}}(2 \\sqrt{2})+10 \\log _{\\mathrm{e}} 5$$\n"}, {"identifier": "D", "content": "$$3 \\pi-30 \\log _e 2+2...	["A"]	null	<p>$$\int_0^{\pi / 4} \frac{136 \sin x}{3 \sin x+5 \cos x} d x$$</p> <p>$$\begin{aligned} & \sin x=A(3 \sin x+5 \cos x)+B(3 \cos x-5 \sin x) \\ & \begin{array}{l} 3 A-5 B=1 \\ 5 A+3 B=0 \end{array}>A=\frac{3}{34} \quad B=\frac{-5}{34} \end{aligned}$$</p> <p>$$\begin{aligned} & \int_0^{\pi / 4} \frac{136\left[\frac{3}{3...	mcq	jee-main-2024-online-5th-april-morning-shift
lv7v3ka9	maths	definite-integration	properties-of-definite-integration	<p>The value of $$\int_\limits{-\pi}^\pi \frac{2 y(1+\sin y)}{1+\cos ^2 y} d y$$ is :</p>	[{"identifier": "A", "content": "$$\\frac{\\pi}{2}$$\n"}, {"identifier": "B", "content": "$$\\pi^2$$\n"}, {"identifier": "C", "content": "$$\\frac{\\pi^2}{2}$$\n"}, {"identifier": "D", "content": "$$2 \\pi^2$$"}]	["B"]	null	<p>$$\begin{aligned} & I=\int_\limits{-\pi}^\pi \frac{2 y(1+\sin y)}{1+\cos ^2 y} d y \\ & =\int_\limits0^\pi\left(\frac{2 y(1+\sin y)}{1+\cos ^2 y}+\frac{-2 y(1-\sin y)}{1+\cos ^2 y}\right) d y \\ & =\int_\limits0^\pi\left(\frac{2 y+2 y \sin y-2 y+2 y \sin y}{1+\cos ^2 y}\right) d y \end{aligned}$$</p> <p>$$I=4 \int_0...	mcq	jee-main-2024-online-5th-april-morning-shift
lv9s205z	maths	definite-integration	properties-of-definite-integration	<p>Let $$\beta(\mathrm{m}, \mathrm{n})=\int_\limits0^1 x^{\mathrm{m}-1}(1-x)^{\mathrm{n}-1} \mathrm{~d} x, \mathrm{~m}, \mathrm{n}>0$$. If $$\int_\limits0^1\left(1-x^{10}\right)^{20} \mathrm{~d} x=\mathrm{a} \times \beta(\mathrm{b}, \mathrm{c})$$, then $$100(\mathrm{a}+\mathrm{b}+\mathrm{c})$$ equals _________.</p>	[{"identifier": "A", "content": "2012"}, {"identifier": "B", "content": "1021"}, {"identifier": "C", "content": "1120"}, {"identifier": "D", "content": "2120"}]	["D"]	null	<p>First, let's rewrite the given integral using the given form of the Beta function. The given integral is:</p> <p> <p>$$\int_\limits0^1\left(1-x^{10}\right)^{20} \mathrm{~d} x$$</p> </p> <p>To use the Beta function, let us make a substitution. Let $ x^{10} = t $. Then, $ dx = \frac{1}{10}t^{-\frac{9}{10}} dt $ or...	mcq	jee-main-2024-online-5th-april-evening-shift
lv9s20mx	maths	definite-integration	properties-of-definite-integration	<p>If $$f(t)=\int_\limits0^\pi \frac{2 x \mathrm{~d} x}{1-\cos ^2 \mathrm{t} \sin ^2 x}, 0<\mathrm{t}<\pi$$, then the value of $$\int_\limits0^{\frac{\pi}{2}} \frac{\pi^2 \mathrm{dt}}{f(\mathrm{t})}$$ equals __________.</p>	[]	null	1	<p>$$\begin{aligned} & f(t)=\int_\limits0^\pi \frac{2 x d x}{1-\cos ^2 t \sin ^2 x} \\ & x \rightarrow \pi-x \end{aligned}$$</p> <p>$$\begin{aligned} & f(t)=\int_\limits0^\pi \frac{2(\pi-x) d x}{1-\cos ^2 t \sin ^2 x}=2 \pi \int_\limits0^\pi \frac{d x}{1-\cos ^2 t \sin ^2 x}-f(t) \\ & \Rightarrow f(t)=\pi \int_\limits0...	integer	jee-main-2024-online-5th-april-evening-shift
lvb294zl	maths	definite-integration	properties-of-definite-integration	<p>Let $$[t]$$ denote the largest integer less than or equal to $$t$$. If $$\int_\limits0^3\left(\left[x^2\right]+\left[\frac{x^2}{2}\right]\right) \mathrm{d} x=\mathrm{a}+\mathrm{b} \sqrt{2}-\sqrt{3}-\sqrt{5}+\mathrm{c} \sqrt{6}-\sqrt{7}$$, where $$\mathrm{a}, \mathrm{b}, \mathrm{c} \in \mathbf{Z}$$, then $$\mathrm{a}...	[]	null	23	<p>$$\int_\limits0^3\left(\left[x^2\right]+\left[\frac{x^2}{2}\right]\right) d x \quad=\int_\limits0^1 0 d x+\int_1^{\sqrt{2}} 1 d x+\int_\limits{\sqrt{2}}^{\sqrt{3}} 3 d x+$$</p> <p>$$ \begin{aligned} & \int_\limits{\sqrt{3}}^2 4 d x+\int_\limits2^{\sqrt{5}} 6 d x+\int_\limits{\sqrt{5}}^{\sqrt{6}} 7 d x+\int_\limits{\...	integer	jee-main-2024-online-6th-april-evening-shift
lvc57ayt	maths	definite-integration	properties-of-definite-integration	<p>$$\int_\limits0^{\pi / 4} \frac{\cos ^2 x \sin ^2 x}{\left(\cos ^3 x+\sin ^3 x\right)^2} d x \text { is equal to }$$</p>	[{"identifier": "A", "content": "1/9"}, {"identifier": "B", "content": "1/6"}, {"identifier": "C", "content": "1/3"}, {"identifier": "D", "content": "1/12"}]	["B"]	null	<p>$$\begin{aligned} & \int_\limits0^{\pi / 4} \frac{\cos ^2 x \cdot \sin ^2 x}{\left(\cos ^3 x+\sin ^3 x\right)^2} d x \\ & =\int_\limits0^{\pi / 4} \frac{\tan ^2 x \cdot \sec ^2 x}{\left(1+\tan ^3 x\right)^2} d x \end{aligned}$$</p> <p>Let $$\tan x=t$$</p> <p>$$\int_\limits0^1 \frac{t^2 d t}{\left(1+t^3\right)^2}$$</...	mcq	jee-main-2024-online-6th-april-morning-shift
lvc58e3u	maths	definite-integration	properties-of-definite-integration	<p>Let $$r_k=\frac{\int_0^1\left(1-x^7\right)^k d x}{\int_0^1\left(1-x^7\right)^{k+1} d x}, k \in \mathbb{N}$$. Then the value of $$\sum_\limits{k=1}^{10} \frac{1}{7\left(r_k-1\right)}$$ is equal to _________.</p>	[]	null	65	<p>$$r_k=\frac{I_a}{I_b} \text {, where } I_a=\int_0^1\left(1-x^7\right)^k d x$$</p> <p><img src="https://app-content.cdn.examgoal.net/fly/@width/image/1lwd3wwxo/4611eb8f-9da2-472d-abed-83945d5d0d49/093f3fc0-15a2-11ef-9ea4-3bb319c2f90f/file-1lwd3wwxp.png?format=png" data-orsrc="https://app-content.cdn.examgoal.net/imag...	integer	jee-main-2024-online-6th-april-morning-shift
fRLdYJcHGpcbyscR	maths	differential-equations	formation-of-differential-equations	The differential equation for the family of circle $${x^2} + {y^2} - 2ay = 0,$$ where a is an arbitrary constant is :	[{"identifier": "A", "content": "$$\\left( {{x^2} + {y^2}} \\right)y' = 2xy$$ "}, {"identifier": "B", "content": "$$2\\left( {{x^2} + {y^2}} \\right)y' = xy$$"}, {"identifier": "C", "content": "$$\\left( {{x^2} - {y^2}} \\right)y' =2 xy$$"}, {"identifier": "D", "content": "$$2\\left( {{x^2} - {y^2}} \\right)y' = xy$$"}...	["C"]	null	$${x^2} + {y^2} - 2ay = 0\,\,\,\,\,\,\,\,\,\,\,...\left( 1 \right)$$ <br><br>Differentiate, <br><br>$$2x + 2y{{dy} \over {dx}} - 2a{{dy} \over {dx}} = 0$$ <br><br>$$\,\,\,\,\,\,\,\,\,\,\,\,\,\, \Rightarrow a = {{x + yy'} \over {y'}}$$ <br><br>Put in $$(1),$$ $${x^2} + {y^2} - 2\left( {{{x + yy'} \over {y'}}} \right) ...	mcq	aieee-2004
Po1lw9JbsWomUyZs	maths	differential-equations	formation-of-differential-equations	The differential equation of all circles passing through the origin and having their centres on the $$x$$-axis is :	[{"identifier": "A", "content": "$${y^2} = {x^2} + 2xy{{dy} \\over {dx}}$$ "}, {"identifier": "B", "content": "$${y^2} = {x^2} - 2xy{{dy} \\over {dx}}$$ "}, {"identifier": "C", "content": "$${x^2} = {y^2} + xy{{dy} \\over {dx}}$$"}, {"identifier": "D", "content": "$${x^2} = {y^2} + 3xy{{dy} \\over {dx}}$$"}]	["A"]	null	General equation of circles passing through origin <br><br>and having their centres on the $$x$$-axis is <br><br>$${x^2} + {y^2} + 2gx = 0\,\,\,\,....\left( i \right)$$ <br><br>On differentiating $$w.r.t.x,$$ we get <br><br>$$2x + 2y.{{dy} \over {dx}} + 2g = 0$$ <br><br>$$ \Rightarrow g = - \left( {x + y{{dy} \over ...	mcq	aieee-2007
YmDJDelJwPq7xlxD	maths	differential-equations	formation-of-differential-equations	The differential equation which represents the family of curves $$y = {c_1}{e^{{c_2}x}},$$ where $${c_1}$$ , and $${c_2}$$ are arbitrary constants, is	[{"identifier": "A", "content": "$$y'' = y'y$$ "}, {"identifier": "B", "content": "$$yy'' = y'$$ "}, {"identifier": "C", "content": "$$yy'' = {\\left( {y'} \\right)^2}$$ "}, {"identifier": "D", "content": "$$y' = {y^2}$$ "}]	["C"]	null	We have $$y = {c_1}{e^{{c_2}x}}$$ <br><br>$$ \Rightarrow y' = {c_1}{c_2}{e^{{c_2}x}} = {c_2}y$$ <br><br>$$ \Rightarrow {{y'} \over y} = {c_2}$$ <br><br>$$ \Rightarrow {{y''y\left( {y'} \right){}^2} \over {{y^2}}} = 0$$ <br><br>$$ \Rightarrow y''y = {\left( {y'} \right)^2}$$	mcq	aieee-2009
9MRXujl4STa4xPl5c4rEH	maths	differential-equations	formation-of-differential-equations	The differential equation representing the family of ellipse having foci eith on the x-axis or on the $$y$$-axis, center at the origin and passing through the point (0, 3) is :	[{"identifier": "A", "content": "xy y'' + x (y')<sup>2</sup> $$-$$ y y' = 0"}, {"identifier": "B", "content": "x + y y'' = 0"}, {"identifier": "C", "content": "xy y'+ y<sup>2</sup> $$-$$ 9 = 0"}, {"identifier": "D", "content": "xy y' $$-$$ y<sup>2</sup> + 9 = 0"}]	["D"]	null	Equation of ellipse, <br><br>$${{{x^2}} \over {{a^2}}} + {{{y^2}} \over {{b^2}}} = 1$$ <br><br>As ellipse passes through (0, 3) <br><br>$$\therefore\,\,\,$$ $${{{0^2}} \over {{a^2}}} + {{{3^2}} \over {{b^2}}} = 1$$ <br><br>$$ \Rightarrow $$    b<sup>2</sup> = 9 <br><br>$$\therefore\,\,\,$$ Equation of ellipse...	mcq	jee-main-2018-online-16th-april-morning-slot
Wv8Zsmh00NPdsxTb9E7k9k2k5hk6uoo	maths	differential-equations	formation-of-differential-equations	The differential equation of the family of curves, x<sup>2</sup> = 4b(y + b), b $$ \in $$ R, is :	[{"identifier": "A", "content": "x(y')<sup>2</sup> = x \u2013 2yy'"}, {"identifier": "B", "content": "x(y')<sup>2</sup> = 2yy' \u2013 x"}, {"identifier": "C", "content": "xy\" = y'"}, {"identifier": "D", "content": "x(y')<sup>2</sup> = x + 2yy'"}]	["D"]	null	x<sup>2</sup> = 4b(y + b) <br><br>$$ \Rightarrow $$ 2x = 4by' <br><br>$$ \Rightarrow $$ b = $${x \over {2y'}}$$ <br><br>$$ \therefore $$ differential equation is <br><br>x<sup>2</sup> = 4.y.$${x \over {2y'}}$$ + 4$${\left( {{x \over {2y'}}} \right)^2}$$ <br><br>$$ \Rightarrow $$ x<sup>2</sup> = $${{2xy} \over {y'}}$$ +...	mcq	jee-main-2020-online-8th-january-evening-slot
FT0YVlJ8yJJqRUDqM9jgy2xukg0c7il3	maths	differential-equations	formation-of-differential-equations	If $$y = \left( {{2 \over \pi }x - 1} \right) cosec\,x$$ is the solution of the differential equation, <br/><br>$${{dy} \over {dx}} + p\left( x \right)y = {2 \over \pi } cosec\,x$$,<br/><br/> $$0 < x < {\pi \over 2}$$, then the function p(x) is equal to :</br>	[{"identifier": "A", "content": "cot x"}, {"identifier": "B", "content": "sec x"}, {"identifier": "C", "content": "tan x"}, {"identifier": "D", "content": "cosec x"}]	["A"]	null	$$y = \left( {{2 \over \pi }x - 1} \right) cosec\,x$$ <br>Differentiate w.r.t x <br><br>$${{dy} \over {dx}} = {2 \over \pi }$$cosec x - $$\left( {{2 \over \pi }x - 1} \right)$$cosec x.cot x <br><br>$$ \Rightarrow $$ $${{dy} \over {dx}}$$ + $$\left( {{2 \over \pi }x - 1} \right)$$cosec x.cot x = $${2 \over \pi }$$cosec ...	mcq	jee-main-2020-online-6th-september-evening-slot
Fh1ueAAgvs7uHquWTM1klrk5zd2	maths	differential-equations	formation-of-differential-equations	If a curve y = f(x) passes through the point (1, 2) and satisfies $$x {{dy} \over {dx}} + y = b{x^4}$$, then for what value of b, $$\int\limits_1^2 {f(x)dx = {{62} \over 5}} $$?	[{"identifier": "A", "content": "$${{31} \\over 5}$$"}, {"identifier": "B", "content": "10"}, {"identifier": "C", "content": "5"}, {"identifier": "D", "content": "$${{62} \\over 5}$$"}]	["B"]	null	$${{dy} \over {dx}} + {y \over x} = b{x^3}$$, $$I.F. = {e^{\int {{{dx} \over x}} }} = x$$<br><br>$$ \therefore $$ $$yx = \int {b{x^4}dx} = {{b{x^5}} \over 5} + C$$<br><br>Passes through (1, 2), we get<br><br>$$2 = {b \over 5} + C$$ ........ (i)<br><br>Also, $$\int\limits_1^2 {\left( {{{b{x^4}} \over 5} + {c \over x}} ...	mcq	jee-main-2021-online-24th-february-evening-slot
9Fv9AhxXoba7dLVrr21kmlhwgmb	maths	differential-equations	formation-of-differential-equations	The differential equation satisfied by the system of parabolas <br/><br/>y<sup>2</sup> = 4a(x + a) is :	[{"identifier": "A", "content": "$$y{\\left( {{{dy} \\over {dx}}} \\right)^2} - 2x\\left( {{{dy} \\over {dx}}} \\right) - y = 0$$"}, {"identifier": "B", "content": "$$y{\\left( {{{dy} \\over {dx}}} \\right)^2} - 2x\\left( {{{dy} \\over {dx}}} \\right) + y = 0$$"}, {"identifier": "C", "content": "$$y{\\left( {{{dy} \\ov...	["C"]	null	$${y^2} = 4ax + 4{a^2}$$<br><br>differentiate with respect to x<br><br>$$ \Rightarrow 2y{{dy} \over {dx}} = 4a$$<br><br>$$ \Rightarrow a = \left( {{y \over 2}{{dy} \over {dx}}} \right)$$<br><br>So, required differential equation is <br><br>$${y^2} = \left( {4 \times {y \over 2}{{dy} \over {dx}}} \right)x + 4{\left( {{y...	mcq	jee-main-2021-online-18th-march-morning-shift
1krzrdrnv	maths	differential-equations	formation-of-differential-equations	Let a curve y = f(x) pass through the point (2, (log<sub>e</sub>2)<sup>2</sup>) and have slope $${{2y} \over {x{{\log }_e}x}}$$ for all positive real value of x. Then the value of f(e) is equal to ______________.	[]	null	1	$$y' = {{2y} \over {x\ln x}}$$<br><br>$$ \Rightarrow {{dy} \over y} = {{2dx} \over {x\ln x}}$$<br><br>$$ \Rightarrow \ln \|y\| = 2\ln \|\ln x\| + C$$<br><br>put x = 2, y = (ln2)<sup>2</sup><br><br>$$\Rightarrow$$ c = 0<br><br>$$\Rightarrow$$ y = (lnx)<sup>2</sup><br><br>$$\Rightarrow$$ f(e) = 1	integer	jee-main-2021-online-25th-july-evening-shift
1ktepvi10	maths	differential-equations	formation-of-differential-equations	If $${y^{1/4}} + {y^{ - 1/4}} = 2x$$, and <br/><br/>$$({x^2} - 1){{{d^2}y} \over {d{x^2}}} + \alpha x{{dy} \over {dx}} + \beta y = 0$$, then \| $$\alpha$$ $$-$$ $$\beta$$ \| is equal to __________.	[]	null	17	$${y^{{1 \over 4}}} + {1 \over {{y^{{1 \over 4}}}}} = 2x$$<br><br>$$ \Rightarrow {\left( {{y^{{1 \over 4}}}} \right)^2} - 2x{y^{\left( {{1 \over 4}} \right)}} + 1 = 0$$<br><br>$$ \Rightarrow {y^{{1 \over 4}}} = x + \sqrt {{x^2} - 1} $$ or $$x - \sqrt {{x^2} - 1} $$<br><br>So, $${1 \over 4}{1 \over {{y^{{3 \over 4}}}}}{...	integer	jee-main-2021-online-27th-august-morning-shift
1ktfzg9uq	maths	differential-equations	formation-of-differential-equations	A differential equation representing the family of parabolas with axis parallel to y-axis and whose length of latus rectum is the distance of the point (2, $$-$$3) from the line 3x + 4y = 5, is given by :	[{"identifier": "A", "content": "$$10{{{d^2}y} \\over {d{x^2}}} = 11$$"}, {"identifier": "B", "content": "$$11{{{d^2}x} \\over {d{y^2}}} = 10$$"}, {"identifier": "C", "content": "$$10{{{d^2}x} \\over {d{y^2}}} = 11$$"}, {"identifier": "D", "content": "$$11{{{d^2}y} \\over {d{x^2}}} = 10$$"}]	["D"]	null	Length of latus rectum<br><br>$$= {{\|3(2) + 4( - 3) - 5\|} \over 5} = {{11} \over 5}$$<br><br>$${(x - h)^2} = {{11} \over 5}(y - k)$$<br><br>differentiate w.r.t. 'x' :-<br><br>$$2(x - h) = {{11} \over 5}{{dy} \over {dx}}$$<br><br>again differentiate<br><br>$$2 = {{11} \over 5}{{{d^2}y} \over {d{x^2}}}$$<br><br>$${{11{d^...	mcq	jee-main-2021-online-27th-august-evening-shift
1l57o2hul	maths	differential-equations	formation-of-differential-equations	<p>Let $${{dy} \over {dx}} = {{ax - by + a} \over {bx + cy + a}}$$, where a, b, c are constants, represent a circle passing through the point (2, 5). Then the shortest distance of the point (11, 6) from this circle is :</p>	[{"identifier": "A", "content": "10"}, {"identifier": "B", "content": "8"}, {"identifier": "C", "content": "7"}, {"identifier": "D", "content": "5"}]	["B"]	null	<p>$${{dy} \over {dx}} = {{ax - by + a} \over {bx + cy + a}}$$</p> <p>$$ = bx\,dy + cy\,dy + a\,dy = ax\,dx - by\,dx + a\,dx$$</p> <p>$$ = cy\,dy + a\,dy - ax\,dx - a\,dx + b(x\,dy + y\,dx) = 0$$</p> <p>$$ = c\int {y\,dy + a\int {x\,dx - a\int {dx + b\int {d(xy) = 0} } } } $$</p> <p>$$ = {{c{y^2}} \over 2} + ay - {{a{x...	mcq	jee-main-2022-online-27th-june-morning-shift
1l5vzx4yi	maths	differential-equations	formation-of-differential-equations	<p>Let $${{dy} \over {dx}} = {{ax - by + a} \over {bx + cy + a}},\,a,b,c \in R$$, represents a circle with center ($$\alpha$$, $$\beta$$). Then, $$\alpha$$ + 2$$\beta$$ is equal to :</p>	[{"identifier": "A", "content": "$$-$$1"}, {"identifier": "B", "content": "0"}, {"identifier": "C", "content": "1"}, {"identifier": "D", "content": "2"}]	["C"]	null	<p>Given,</p> <p>$${{dy} \over {dx}} = {{ax - by + a} \over {bx + cy + a}}$$</p> <p>$$ \Rightarrow bxdy + cydy + ady = axdx - bydx + adx$$</p> <p>$$ \Rightarrow bxdy + bydx + (cy + a)dy = (ax + a)dx$$</p> <p>$$ \Rightarrow b(xdy + ydx) + (cy + a)dy = (ax + a)dx$$</p> <p>$$ \Rightarrow bd(xy) + (cy + a)dy = (ax + a)dx$$...	mcq	jee-main-2022-online-30th-june-morning-shift
1l6f1ihu7	maths	differential-equations	formation-of-differential-equations	<p>Let a smooth curve $$y=f(x)$$ be such that the slope of the tangent at any point $$(x, y)$$ on it is directly proportional to $$\left(\frac{-y}{x}\right)$$. If the curve passes through the points $$(1,2)$$ and $$(8,1)$$, then $$\left\|y\left(\frac{1}{8}\right)\right\|$$ is equal to</p>	[{"identifier": "A", "content": "$$2 \\log _{e} 2$$"}, {"identifier": "B", "content": "4"}, {"identifier": "C", "content": "1"}, {"identifier": "D", "content": "$$4 \\log _{e} 2$$"}]	["B"]	null	<p>$${{dy} \over {dx}} \propto {{ - y} \over x}$$</p> <p>$${{dy} \over {dx}} = {{ - ky} \over x} \Rightarrow \int {{{dy} \over y} = - K\int {{{dx} \over x}} } $$</p> <p>$$\ln \|y\| = - K\ln \|x\| + C$$</p> <p>If the above equation satisfy (1, 2) and (8, 1)</p> <p>$$\ln 2 = - K \times 0 + C \Rightarrow C = \ln 2$$</p> <p...	mcq	jee-main-2022-online-25th-july-evening-shift
1l6gjjaoy	maths	differential-equations	formation-of-differential-equations	<p>Let a curve $$y=y(x)$$ pass through the point $$(3,3)$$ and the area of the region under this curve, above the $$x$$-axis and between the abscissae 3 and $$x(>3)$$ be $$\left(\frac{y}{x}\right)^{3}$$. If this curve also passes through the point $$(\alpha, 6 \sqrt{10})$$ in the first quadrant, then $$\alpha$$ is e...	[]	null	6	<p>$$\int\limits_3^x {f(x)dx = {{\left( {{{f(x)} \over x}} \right)}^3}} $$</p> <p>$${x^3}\,.\,\int\limits_3^x {f(x)dx = {f^3}(x)} $$</p> <p>Differentiate w.r.t. x</p> <p>$${x^3}f(x) + 3{x^2}\,.\,{{{f^3}(x)} \over {{x^3}}} = 3{f^2}(x)f'(x)$$</p> <p>$$ \Rightarrow 3{y^2}{{dy} \over {dx}} = {x^3}y + {{3{y^3}} \over x}$$</...	integer	jee-main-2022-online-26th-july-morning-shift
1l6nn544i	maths	differential-equations	formation-of-differential-equations	<p>The differential equation of the family of circles passing through the points $$(0,2)$$ and $$(0,-2)$$ is :</p>	[{"identifier": "A", "content": "$$2 x y \\frac{d y}{d x}+\\left(x^{2}-y^{2}+4\\right)=0$$"}, {"identifier": "B", "content": "$$2 x y \\frac{d y}{d x}+\\left(x^{2}+y^{2}-4\\right)=0$$"}, {"identifier": "C", "content": "$$2 x y \\frac{d y}{d x}+\\left(y^{2}-x^{2}+4\\right)=0$$"}, {"identifier": "D", "content": "$$2 x y ...	["A"]	null	<p>Family of circles passing through the points (0, 2) and (0, $$-$$2)</p> <p>$${x^2} + (y - 2)(y + 2) + \lambda x = 0,\,\lambda \in R$$</p> <p>$${x^2} + {y^2} + \lambda x - 4 = 0$$ ...... (1)</p> <p>Differentiate w.r.t x</p> <p>$$2x + 2y{{dy} \over {dx}} + \lambda = 0$$ ....... (2)</p> <p>Using (1) and (2), eliminat...	mcq	jee-main-2022-online-28th-july-evening-shift

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