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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
1krzmlysr	maths	vector-algebra	algebra-and-modulus-of-vectors	Let a, b and c be distinct positive numbers. If the vectors $$a\widehat i + a\widehat j + c\widehat k,\widehat i+\widehat k$$ and $$c\widehat i + c\widehat j + b\widehat k$$ are co-planar, then c is equal to :	[{"identifier": "A", "content": "$${2 \\over {{1 \\over a} + {1 \\over b}}}$$"}, {"identifier": "B", "content": "$${{a + b} \\over 2}$$"}, {"identifier": "C", "content": "$${1 \\over a} + {1 \\over b}$$"}, {"identifier": "D", "content": "$$\\sqrt {ab} $$"}]	["D"]	null	Because vectors are coplanar<br><br>Hence, $$\left\| {\matrix{ a & a & c \cr 1 & 0 & 1 \cr c & c & b \cr } } \right\| = 0$$<br><br>$$ \Rightarrow {c^2} = ab \Rightarrow c = \sqrt {ab} $$	mcq	jee-main-2021-online-25th-july-evening-shift
1l54taa8j	maths	vector-algebra	algebra-and-modulus-of-vectors	Let A, B, C be three points whose position vectors respectively are <p>$$\overrightarrow a = \widehat i + 4\widehat j + 3\widehat k$$</p> <p>$$\overrightarrow b = 2\widehat i + \alpha \widehat j + 4\widehat k,\,\alpha \in R$$</p> <p>$$\overrightarrow c = 3\widehat i - 2\widehat j + 5\widehat k$$</p> <p>If $$\alpha$...	[{"identifier": "A", "content": "$${{\\sqrt {82} } \\over 2}$$"}, {"identifier": "B", "content": "$${{\\sqrt {62} } \\over 2}$$"}, {"identifier": "C", "content": "$${{\\sqrt {69} } \\over 2}$$"}, {"identifier": "D", "content": "$${{\\sqrt {66} } \\over 2}$$"}]	["A"]	null	$\overrightarrow{A B} \\| \overrightarrow{A C}$ if <br/><br/> $\frac{1}{2}=\frac{\alpha-4}{-6}=\frac{1}{2}$ <br/><br/> $\Rightarrow \alpha=1$ <br/><br/> $\vec{a}, \vec{b}, \vec{c}$ are non-collinear for $\alpha=2$ (smallest positive integer) <br/><br/> Mid point of $B C=M\left(\frac{5}{2}, 0, \frac{9}{2}\right)$ <br/><b...	mcq	jee-main-2022-online-29th-june-evening-shift
1l6m59jzo	maths	vector-algebra	algebra-and-modulus-of-vectors	<p>Let the vectors $$\vec{a}=(1+t) \hat{i}+(1-t) \hat{j}+\hat{k}, \vec{b}=(1-t) \hat{i}+(1+t) \hat{j}+2 \hat{k}$$ and $$\vec{c}=t \hat{i}-t \hat{j}+\hat{k}, t \in \mathbf{R}$$ be such that for $$\alpha, \beta, \gamma \in \mathbf{R}, \alpha \vec{a}+\beta \vec{b}+\gamma \vec{c}=\overrightarrow{0} \Rightarrow \alpha=\beta...	[{"identifier": "A", "content": "a non-empty finite set"}, {"identifier": "B", "content": "equal to $$\\mathbf{N}$$"}, {"identifier": "C", "content": "equal to $$\\mathbf{R}-\\{0\\}$$"}, {"identifier": "D", "content": "equal to $$\\mathbf{R}$$"}]	["C"]	null	<p>Clearly $$\overrightarrow a $$, $$\overrightarrow b $$, $$\overrightarrow c $$ are non-coplanar</p> <p>$$\left\| {\matrix{ {1 + t} & {1 - t} & 1 \cr {1 - t} & {1 + t} & 2 \cr t & { - t} & 1 \cr } } \right\| \ne 0$$</p> <p>$$ \Rightarrow (1 + t)(1 + t + 2t) - (1 - t)(1 - t - 2t) + 1({t^2} - t - t - {t^...	mcq	jee-main-2022-online-28th-july-morning-shift
1ldybks1h	maths	vector-algebra	algebra-and-modulus-of-vectors	<p>Let PQR be a triangle. The points A, B and C are on the sides QR, RP and PQ respectively such that <br/><br/>$${{QA} \over {AR}} = {{RB} \over {BP}} = {{PC} \over {CQ}} = {1 \over 2}$$. Then $${{Area(\Delta PQR)} \over {Area(\Delta ABC)}}$$ is equal to :</p>	[{"identifier": "A", "content": "$$\\frac{5}{2}$$"}, {"identifier": "B", "content": "4"}, {"identifier": "C", "content": "2"}, {"identifier": "D", "content": "3"}]	["D"]	null	Let the position vector of $P, Q, R$ be $\overrightarrow{0}, \overrightarrow{a}, \overrightarrow{b}$ <br><br>$\Rightarrow$ Position vector of $A=\frac{2 \overrightarrow{a}+\overrightarrow{b}}{3}, $ <br><br>Position vector of $B=\frac{2 \overrightarrow{b}}{3}$ and <br><br>Position vector of $C=\frac{\overrightarrow{a}...	mcq	jee-main-2023-online-24th-january-morning-shift
lgnwmpwc	maths	vector-algebra	algebra-and-modulus-of-vectors	Let $\mathrm{ABCD}$ be a quadrilateral. If $\mathrm{E}$ and $\mathrm{F}$ are the mid points of the diagonals $\mathrm{AC}$ and $\mathrm{BD}$ respectively and $(\overrightarrow{A B}-\overrightarrow{B C})+(\overrightarrow{A D}-\overrightarrow{D C})=k \overrightarrow{F E}$, then $k$ is equal to :	[{"identifier": "A", "content": "-2"}, {"identifier": "B", "content": "4"}, {"identifier": "C", "content": "-4"}, {"identifier": "D", "content": "2"}]	["C"]	null	<p>Let the position vectors of $A, B, C,$ and $D$ be $\vec{a}, \vec{b}, \vec{c},$ and $\vec{d}$, respectively.</p> <p>Then the position vector of $E$ is:</p> <p>$$ \vec{E} = \frac{\vec{a} + \vec{c}}{2} $$</p> <p>And the position vector of $F$ is:</p> <p>$$ \vec{F} = \frac{\vec{b} + \vec{d}}{2} $$</p> <p>Now, we are giv...	mcq	jee-main-2023-online-15th-april-morning-shift
1lguu8s7l	maths	vector-algebra	algebra-and-modulus-of-vectors	<p>For any vector $$\vec{a}=a_{1} \hat{i}+a_{2} \hat{j}+a_{3} \hat{k}$$, with $$10\left\|a_{i}\right\|<1, i=1,2,3$$, consider the following statements :</p> <p>(A): $$\max \left\{\left\|a_{1}\right\|,\left\|a_{2}\right\|,\left\|a_{3}\right\|\right\} \leq\|\vec{a}\|$$</p> <p>(B) : $$\|\vec{a}\| \leq 3 \max \left\{\left\|a_{1}\rig...	[{"identifier": "A", "content": "Only (B) is true"}, {"identifier": "B", "content": "Only (A) is true"}, {"identifier": "C", "content": "Neither (A) nor (B) is true"}, {"identifier": "D", "content": "Both (A) and (B) are true"}]	["D"]	null	We have, <br/><br/>$$ \begin{aligned} & 10\left\|a_i\right\|<1, i=1,2,3 \\\\ & \text { Let } \left\|a_1\right\| \geq\left\|a_2\right\| \geq\left\|a_3\right\| \\\\ & \|\vec{a}\|=\sqrt{a_1^2+a_2^2+a_3^2} \geq \sqrt{a_1^2} \\\\ & \therefore\|\vec{a}\| \geq\left\|a_1\right\| \text { or } \max \left\{\left\|a_1\right\|,\left\|a_2\right\|,\le...	mcq	jee-main-2023-online-11th-april-morning-shift
1lgvq2r23	maths	vector-algebra	algebra-and-modulus-of-vectors	<p>If the points $$\mathrm{P}$$ and $$\mathrm{Q}$$ are respectively the circumcenter and the orthocentre of a $$\triangle \mathrm{ABC}$$, then $$\overrightarrow{\mathrm{PA}}+\overrightarrow{\mathrm{PB}}+\overrightarrow{\mathrm{PC}}$$ is equal to :</p>	[{"identifier": "A", "content": "$$\\overrightarrow {QP} $$"}, {"identifier": "B", "content": "$$\\overrightarrow {PQ} $$"}, {"identifier": "C", "content": "$$2\\overrightarrow {PQ} $$"}, {"identifier": "D", "content": "$$2\\overrightarrow {QP} $$"}]	["B"]	null	1. Circumcenter $ P $: <br/><br/>The circumcenter of a triangle is equidistant from the vertices of the triangle. It is the center of the circumcircle, the circle that passes through all three vertices of the triangle. <br/><br/>2. Orthocenter $ Q $: <br/><br/>The orthocenter of a triangle is the point of in...	mcq	jee-main-2023-online-10th-april-evening-shift
1lgxt48t5	maths	vector-algebra	algebra-and-modulus-of-vectors	<p>An arc PQ of a circle subtends a right angle at its centre O. The mid point of the arc PQ is R. If $$\overrightarrow {OP} = \overrightarrow u ,\overrightarrow {OR} = \overrightarrow v $$, and $$\overrightarrow {OQ} = \alpha \overrightarrow u + \beta \overrightarrow v $$, then $$\alpha ,{\beta ^2}$$ are the roots...	[{"identifier": "A", "content": "$${x^2} + x - 2 = 0$$"}, {"identifier": "B", "content": "$$3{x^2} + 2x - 1 = 0$$"}, {"identifier": "C", "content": "$$3{x^2} - 2x - 1 = 0$$"}, {"identifier": "D", "content": "$${x^2} - x - 2 = 0$$"}]	["D"]	null	An arc $P Q$ of a circle subtends a right angle at its centre $O$. The mid-point of an $\operatorname{arc} P Q$ is $R$. So, $P R=R Q$ <br><br>Also given that, $$\overrightarrow {OP} = \overrightarrow u ,\overrightarrow {OR} = \overrightarrow v $$, and $$\overrightarrow {OQ} = \alpha \overrightarrow u + \beta \over...	mcq	jee-main-2023-online-10th-april-morning-shift
1lgzzzo1k	maths	vector-algebra	algebra-and-modulus-of-vectors	<p>If the points with position vectors $$\alpha \hat{i}+10 \hat{j}+13 \hat{k}, 6 \hat{i}+11 \hat{j}+11 \hat{k}, \frac{9}{2} \hat{i}+\beta \hat{j}-8 \hat{k}$$ are collinear, then $$(19 \alpha-6 \beta)^{2}$$ is equal to :</p>	[{"identifier": "A", "content": "16"}, {"identifier": "B", "content": "49"}, {"identifier": "C", "content": "36"}, {"identifier": "D", "content": "25"}]	["C"]	null	Given : Points with position vectors <br/><br/>$$ \alpha \hat{i}+10 \hat{j}+13 \hat{k}, 6 \hat{i}+11 \hat{j}+11 \hat{k} $$ <br/><br/>and $\frac{9}{2} \hat{i}+\beta \hat{j}-8 \hat{k}$ are collinear. <br/><br/>So, $\frac{\alpha-6}{6-\frac{9}{2}}=\frac{10-11}{11-\beta}=\frac{13-11}{11+8}$ <br/><br/>$$ \begin{aligned} & \R...	mcq	jee-main-2023-online-8th-april-morning-shift
jaoe38c1lsco116r	maths	vector-algebra	algebra-and-modulus-of-vectors	<p>The position vectors of the vertices $$\mathrm{A}, \mathrm{B}$$ and $$\mathrm{C}$$ of a triangle are $$2 \hat{i}-3 \hat{j}+3 \hat{k}, 2 \hat{i}+2 \hat{j}+3 \hat{k}$$ and $$-\hat{i}+\hat{j}+3 \hat{k}$$ respectively. Let $$l$$ denotes the length of the angle bisector $$\mathrm{AD}$$ of $$\angle \mathrm{BAC}$$ where $$...	[{"identifier": "A", "content": "45"}, {"identifier": "B", "content": "50"}, {"identifier": "C", "content": "42"}, {"identifier": "D", "content": "49"}]	["A"]	null	<p>$$\begin{aligned} & \mathrm{AB}=5 \\ & \mathrm{AC}=5 \end{aligned}$$</p> <p><img src="https://app-content.cdn.examgoal.net/fly/@width/image/1lt1v5c9e/0c2c210a-ab17-46c0-813d-6d826d2adf6f/7c1dc320-d40e-11ee-b9d5-0585032231f0/file-1lt1v5c9f.png?format=png" data-orsrc="https://app-content.cdn.examgoal.net/image...	mcq	jee-main-2024-online-27th-january-evening-shift
jaoe38c1lseyalpj	maths	vector-algebra	algebra-and-modulus-of-vectors	<p>Let $$\vec{a}, \vec{b}$$ and $$\vec{c}$$ be three non-zero vectors such that $$\vec{b}$$ and $$\vec{c}$$ are non-collinear. If $$\vec{a}+5 \vec{b}$$ is collinear with $$\vec{c}, \vec{b}+6 \vec{c}$$ is collinear with $$\vec{a}$$ and $$\vec{a}+\alpha \vec{b}+\beta \vec{c}=\overrightarrow{0}$$, then $$\alpha+\beta$$ is...	[{"identifier": "A", "content": "30"}, {"identifier": "B", "content": "$$-$$30"}, {"identifier": "C", "content": "$$-$$25"}, {"identifier": "D", "content": "35"}]	["D"]	null	<p>$$\begin{aligned} & \vec{a}+5 \vec{b}=\lambda \vec{c} \\ & \vec{b}+6 \vec{c}=\mu \vec{a} \end{aligned}$$</p> <p>Eliminating $$\vec{a}$$</p> <p>$$\begin{aligned} & \lambda \overrightarrow{\mathrm{c}}-5 \overrightarrow{\mathrm{b}}=\frac{6}{\mu} \overrightarrow{\mathrm{c}}+\frac{1}{\mu} \overrightarrow{\mathrm{b}} \\ &...	mcq	jee-main-2024-online-29th-january-morning-shift
sQ5ibg4HiGWlSCmT	maths	vector-algebra	scalar-and-vector-triple-product	If $$\overrightarrow a \,\,,\,\,\overrightarrow b \,\,,\,\,\overrightarrow c $$ are vectors such that $$\left[ {\overrightarrow a \,\overrightarrow b \,\overrightarrow c } \right] = 4$$ then $$\left[ {\overrightarrow a \, \times \overrightarrow b \,\,\overrightarrow b \times \,\overrightarrow c \,\,\overrightarrow c \...	[{"identifier": "A", "content": "$$16$$ "}, {"identifier": "B", "content": "$$64$$ "}, {"identifier": "C", "content": "$$4$$ "}, {"identifier": "D", "content": "$$8$$ "}]	["A"]	null	We have, $$\left[ {\overrightarrow a \times \overrightarrow b \,\,\overrightarrow b \times \overrightarrow c \,\,\overrightarrow c \times \overrightarrow a } \right]$$ <br><br>$$ = \left( {\overrightarrow a \times \overrightarrow b } \right).\,\,\left\{ {\left( {\overrightarrow b \times \overrightarrow c } \right)...	mcq	aieee-2002
D4Bcevo00Vrh7Gww	maths	vector-algebra	scalar-and-vector-triple-product	If $$\overrightarrow u \,,\overrightarrow v $$ and $$\overrightarrow w $$ are three non-coplanar vectors, then $$\,\left( {\overrightarrow u + \overrightarrow v - \overrightarrow w } \right).\left( {\overrightarrow u - \overrightarrow v } \right) \times \left( {\overrightarrow v - \overrightarrow w} \right)$$ equal...	[{"identifier": "A", "content": "$$3\\overrightarrow u .\\overrightarrow v \\times \\overrightarrow w $$ "}, {"identifier": "B", "content": "$$0$$"}, {"identifier": "C", "content": "$$\\overrightarrow u .\\overrightarrow v \\times \\overrightarrow w $$ "}, {"identifier": "D", "content": "$$\\overrightarrow u .\\overr...	["C"]	null	$$\left( {\overrightarrow u + \overrightarrow v - \overrightarrow w } \right).\left( {\overrightarrow u \times \overrightarrow v - \overrightarrow u \times \overrightarrow w - \overrightarrow v \times \overrightarrow v + \overrightarrow v \times \overrightarrow w } \right)$$ <br><br>$$ = \left( {\overrightarro...	mcq	aieee-2003
jZuo6aOIGIMwAj1z	maths	vector-algebra	scalar-and-vector-triple-product	If $${\overrightarrow a ,\overrightarrow b ,\overrightarrow c }$$ are non-coplanar vectors and $$\lambda $$ is a real number, then the vectors $${\overrightarrow a + 2\overrightarrow b + 3\overrightarrow c ,\,\,\lambda \overrightarrow b + 4\overrightarrow c }$$ and $$\left( {2\lambda - 1} \right)\overrightarrow c $...	[{"identifier": "A", "content": "no value of $$\\lambda $$ "}, {"identifier": "B", "content": "all except one value of $$\\lambda $$ "}, {"identifier": "C", "content": "all except two values of $$\\lambda $$ "}, {"identifier": "D", "content": "all values of $$\\lambda $$ "}]	["C"]	null	Vectors $$\overrightarrow a + 2\overrightarrow b + 3\overrightarrow c ,\lambda \overrightarrow b + 4\overrightarrow c ,\,\,\,$$ <br><br>and $$\left( {2\lambda - 1} \right)\overrightarrow c $$ are <br><br>coplanar if $$\left\| {\matrix{ 1 & 2 & 3 \cr 0 & \lambda & 4 \cr 0 & 0 & ...	mcq	aieee-2004
BRq9yBuutoyT3OZ3	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a \,\, = \,\,\widehat i - \widehat k,\,\,\,\,\,\overrightarrow b \,\,\, = \,\,\,x\widehat i + \widehat j\,\,\, + \,\,\,\left( {1 - x} \right)\widehat k$$ and $$\overrightarrow c \,\, = \,\,y\widehat i + x\widehat j + \left( {1 + x - y} \right)\widehat k.$$ Then $$\left[ {\overrightarrow a ,\overri...	[{"identifier": "A", "content": "only $$y$$ "}, {"identifier": "B", "content": "only $$x$$ "}, {"identifier": "C", "content": "both $$x$$ and $$y$$ "}, {"identifier": "D", "content": "neither $$x$$ nor $$y$$ "}]	["D"]	null	$$\overrightarrow a = \widehat j - \widehat k,\overrightarrow b = x\widehat i + \overrightarrow j + \left( {1 - x} \right)\widehat k$$ <br><br>and $$\overrightarrow c = y\widehat i + x\widehat j + \left( {1 + x - y} \right)\widehat k$$ <br><br>$$\left[ {\overrightarrow a \,\overrightarrow b \,\overrightarrow c } \...	mcq	aieee-2005
uM4lvmwUCURnQ18y	maths	vector-algebra	scalar-and-vector-triple-product	If $$\overrightarrow a ,\overrightarrow b ,\overrightarrow c $$ are non coplanar vectors and $$\lambda $$ is a real number then <br/><br/>$$\left[ {\lambda \left( {\overrightarrow a + \overrightarrow b } \right)\,\,\,\,\,\,\,\,{\lambda ^2}\overrightarrow b \,\,\,\,\,\,\,\,\lambda \overrightarrow c } \right] = \left[ {...	[{"identifier": "A", "content": "exactly one value of $$\\lambda $$ "}, {"identifier": "B", "content": "no value of $$\\lambda $$"}, {"identifier": "C", "content": "exactly three values of $$\\lambda $$"}, {"identifier": "D", "content": "exactly two values of $$\\lambda $$"}]	["B"]	null	$$\left[ {\lambda \left( {\overrightarrow a + \overrightarrow b } \right){\lambda ^2}\overrightarrow b \,\,\,\lambda \overrightarrow c } \right] = \left[ {\overrightarrow a \,\,\overrightarrow b + \overrightarrow c \,\,\overrightarrow b } \right]$$ <br><br>$$ \Rightarrow {\lambda ^4}\left[ {\overrightarrow a + \over...	mcq	aieee-2005
zsaWIZzGBykVkw8A	maths	vector-algebra	scalar-and-vector-triple-product	If $$\left( {\overrightarrow a \times \overrightarrow b } \right) \times \overrightarrow c = \overrightarrow a \times \left( {\overrightarrow b \times \overrightarrow c } \right)$$ where $${\overrightarrow a ,\overrightarrow b }$$ and $${\overrightarrow c }$$ are any three vectors such that $$\overrightarrow a .\ov...	[{"identifier": "A", "content": "inclined at an angle of $${\\pi \\over 3}$$ between them "}, {"identifier": "B", "content": "inclined at an angle of $${\\pi \\over 6}$$ between them "}, {"identifier": "C", "content": "perpendicular "}, {"identifier": "D", "content": "parallel "}]	["D"]	null	$$\left( {\overrightarrow a \times \overrightarrow b } \right) \times \overrightarrow c $$ <br><br>$$\,\,\,\,\,\,\,\,\,\,\,\,\, = \overrightarrow a \times \left( {\overrightarrow b \times \overrightarrow c } \right),\overrightarrow a .\overrightarrow b \ne 0,\,\,\overrightarrow b .\overrightarrow c \ne 0$$ <br><br...	mcq	aieee-2006
lWNMlgYnWH2QteNt	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a = \widehat i + \widehat j + \widehat k,\overrightarrow b = \widehat i - \widehat j + 2\widehat k$$ and $$\overrightarrow c = x\widehat i + \left( {x - 2} \right)\widehat j - \widehat k\,\,.$$ If the vectors $$\overrightarrow c $$ lies in the plane of $$\overrightarrow a $$ and $$\overrightar...	[{"identifier": "A", "content": "$$-4$$ "}, {"identifier": "B", "content": "$$-2$$"}, {"identifier": "C", "content": "$$0$$ "}, {"identifier": "D", "content": "$$1.$$"}]	["B"]	null	Given $$\overrightarrow a = \widehat i + \widehat j + \widehat k,\overrightarrow b = \widehat i - \widehat j + 2\widehat k$$ <br><br>and $$\overrightarrow c = x\widehat i + \left( {x - 2} \right)\widehat j - \widehat k$$ <br><br>If $$\overrightarrow c $$ lies in the plane of $$\overrightarrow a $$ and $$\overrighta...	mcq	aieee-2007
QgpDQ7Vm5ZN1ORQI	maths	vector-algebra	scalar-and-vector-triple-product	The vector $$\overrightarrow a = \alpha \widehat i + 2\widehat j + \beta \widehat k$$ lies in the plane of the vectors <br/>$$\overrightarrow b = \widehat i + \widehat j$$ and $$\overrightarrow c = \widehat j + \widehat k$$ and bisects the angle between $$\overrightarrow b $$ and $$\overrightarrow c $$.Then which ...	[{"identifier": "A", "content": "$$\\alpha = 2,\\,\\,\\beta = 2$$ "}, {"identifier": "B", "content": "$$\\alpha = 1,\\,\\,\\beta = 2$$"}, {"identifier": "C", "content": "$$\\alpha = 2,\\,\\,\\beta = 1$$"}, {"identifier": "D", "content": "$$\\alpha = 1,\\,\\,\\beta = 1$$"}]	["D"]	null	As $$\overrightarrow a $$ lies in the plane of $$\overrightarrow b $$ and $$\overrightarrow c $$ <br><br>$$\therefore$$ $$\overrightarrow a = \overrightarrow b + \lambda \overrightarrow c $$ <br><br>$$ \Rightarrow \alpha \widehat i + 2\widehat j + \beta \widehat k = \widehat i + \widehat j + \lambda \left( {\widehat ...	mcq	aieee-2008
hZS5SQ5907JAkQoO	maths	vector-algebra	scalar-and-vector-triple-product	If $$\overrightarrow u ,\overrightarrow v ,\overrightarrow w $$ are non-coplanar vectors and $$p,q$$ are real numbers, then the equality $$\left[ {3\overrightarrow u \,\,p\overrightarrow v \,\,p\overrightarrow w } \right] - \left[ {p\overrightarrow v \,\,\overrightarrow w \,\,q\overrightarrow u } \right] - \left[ {2\ov...	[{"identifier": "A", "content": "exactly two values of $$(p,q)$$"}, {"identifier": "B", "content": "more than two but not all values of $$(p,q)$$ "}, {"identifier": "C", "content": "all values of $$(p,q)$$ "}, {"identifier": "D", "content": "exactly one value of $$(p,q)$$"}]	["D"]	null	$$\left[ {3\overrightarrow u \,\,p\overrightarrow v \,\,p\overrightarrow \omega } \right] - \left[ {p\overrightarrow v \,\,\overrightarrow \omega \,\,q\overrightarrow u } \right] - \left[ {2\overrightarrow \omega \,\,q\overrightarrow v \,\,q\overrightarrow u } \right] = 0$$ <br><br>$$ \Rightarrow \left( {3{p^2} - pq...	mcq	aieee-2009
FVPtJqT2k8NUVozx	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a = \widehat j - \widehat k$$ and $$\overrightarrow c = \widehat i - \widehat j - \widehat k.$$ Then the vector $$\overrightarrow b $$ satisfying $$\overrightarrow a \times \overrightarrow b + \overrightarrow c = \overrightarrow 0 $$ and $$\overrightarrow a .\overrightarrow b = 3$$ :	[{"identifier": "A", "content": "$$2\\widehat i - \\widehat j + 2\\widehat k$$ "}, {"identifier": "B", "content": "$$\\widehat i - \\widehat j - 2\\widehat k$$"}, {"identifier": "C", "content": "$$\\widehat i + \\widehat j - 2\\widehat k$$"}, {"identifier": "D", "content": "$$-\\widehat i +\\widehat j - 2\\widehat k$$"...	["D"]	null	$$\overrightarrow c = \overrightarrow b \times \overrightarrow a $$ <br><br>$$ \Rightarrow \overrightarrow b .\overrightarrow c = \overrightarrow b .\left( {\overrightarrow b \times \overrightarrow a } \right) \Rightarrow \overrightarrow b .\overrightarrow c = 0$$ <br><br>$$ \Rightarrow \left( {{b_1}\widehat i + {...	mcq	aieee-2010
tPY4NnwJZCoCQIE5	maths	vector-algebra	scalar-and-vector-triple-product	If $$\overrightarrow a = {1 \over {\sqrt {10} }}\left( {3\widehat i + \widehat k} \right)$$ and $$\overrightarrow b = {1 \over 7}\left( {2\widehat i + 3\widehat j - 6\widehat k} \right),$$ then the value <br/><br>of $$\left( {2\overrightarrow a - \overrightarrow b } \right)\left[ {\left( {\overrightarrow a \times ...	[{"identifier": "A", "content": "$$-3$$ "}, {"identifier": "B", "content": "$$5$$ "}, {"identifier": "C", "content": "$$3$$ "}, {"identifier": "D", "content": "$$-5$$ "}]	["D"]	null	We have $$\overrightarrow a .\overrightarrow b = 0,\,\,\overrightarrow a .\overrightarrow a = 1,\,\,\overrightarrow b .\overrightarrow b = 1$$ <br><br>$$\left( {2\overrightarrow a - \overrightarrow b } \right).\left[ {\left( {\overrightarrow a \times \overrightarrow b } \right) \times \left( {\overrightarrow a + ...	mcq	aieee-2011
fnnbNmLCR5jL4JWe	maths	vector-algebra	scalar-and-vector-triple-product	If $$\left[ {\overrightarrow a \times \overrightarrow b \,\,\,\,\overrightarrow b \times \overrightarrow c \,\,\,\,\overrightarrow c \times \overrightarrow a } \right] = \lambda {\left[ {\overrightarrow a\,\,\,\,\,\,\,\, \overrightarrow b \,\,\,\,\,\,\,\,\overrightarrow c } \right]^2}$$ then $$\lambda $$ is equal to...	[{"identifier": "A", "content": "$$0$$ "}, {"identifier": "B", "content": "$$1$$"}, {"identifier": "C", "content": "$$2$$"}, {"identifier": "D", "content": "$$3$$"}]	["B"]	null	$$L.H.S$$ $$ = \left( {\overrightarrow a \times \overrightarrow b } \right).\left[ {\left( {\overrightarrow b \times \overrightarrow c } \right) \times \left( {\overrightarrow c \times \overrightarrow a } \right)} \right]$$ <br><br>$$ = \left( {\overrightarrow a \times \overrightarrow b } \right).\left[ {\left( {\o...	mcq	jee-main-2014-offline
GHozmbvUXpiFybyD	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a ,\overrightarrow b $$ and $$\overrightarrow c $$ be three non-zero vectors such that no two of them are collinear and <br/><br/>$$\left( {\overrightarrow a \times \overrightarrow b } \right) \times \overrightarrow c = {1 \over 3}\left\| {\overrightarrow b } \right\|\left\| {\overrightarrow c } \r...	[{"identifier": "A", "content": "$${2 \\over 3}$$"}, {"identifier": "B", "content": "$${{ - 2\\sqrt 3 } \\over 3}$$ "}, {"identifier": "C", "content": "$${{ 2\\sqrt 2 } \\over 3}$$"}, {"identifier": "D", "content": "$${{ - \\sqrt 2 } \\over 3}$$ "}]	["C"]	null	$$\left( {\overrightarrow a \times \overrightarrow b } \right) \times \overrightarrow c = {1 \over 3}\left\| {\overrightarrow b } \right\|\left\| {\overrightarrow c } \right\|\overrightarrow a $$ <br><br>$$ \Rightarrow - \overrightarrow c \times \left( {\overrightarrow a \times \overrightarrow b } \right) = {1 \over 3...	mcq	jee-main-2015-offline
6uIl4ZYYXZz8Y3pd	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a ,\overrightarrow b $$ and $$\overrightarrow c $$ be three unit vectors such that $$\overrightarrow a \times \left( {\overrightarrow b \times \overrightarrow c } \right) = {{\sqrt 3 } \over 2}\left( {\overrightarrow b + \overrightarrow c } \right).$$ If $${\overrightarrow b }$$ is not parallel...	[{"identifier": "A", "content": "$${{2\\pi } \\over 3}$$ "}, {"identifier": "B", "content": "$${{5\\pi } \\over 6}$$"}, {"identifier": "C", "content": "$${{3\\pi } \\over 4}$$"}, {"identifier": "D", "content": "$${{\\pi } \\over 2}$$"}]	["B"]	null	$$\overrightarrow a \times \left( {\overrightarrow b \times \overrightarrow c } \right) = {{\sqrt 3 } \over 2}\left( {\overrightarrow b + \overrightarrow c } \right)$$ <br><br>$$ \Rightarrow \left( {\overrightarrow a .\overrightarrow c } \right)\overrightarrow b - \left( {\overrightarrow a .\overrightarrow b } \rig...	mcq	jee-main-2016-offline
EtDY30nGqeWkJ7RGPLaJz	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a $$, $$\overrightarrow b $$ and $$\overrightarrow c $$ be three unit vectors, out of which vectors $$\overrightarrow b $$ and $$\overrightarrow c $$ are non-parallel. If $$\alpha $$ and $$\beta $$ are the angles which vector $$\overrightarrow a $$ makes with vectors $$\overrightarrow b $$ and $$...	[{"identifier": "A", "content": "90<sup>o</sup>"}, {"identifier": "B", "content": "30<sup>o</sup>"}, {"identifier": "C", "content": "45<sup>o</sup>"}, {"identifier": "D", "content": "60<sup>o</sup>"}]	["B"]	null	$$\left( {\overrightarrow a .\overrightarrow c } \right)\overrightarrow b - \left( {\overrightarrow a .\overrightarrow b } \right).\overrightarrow c = {1 \over 2}\overrightarrow b $$ <br><br>$$ \because $$  $$\overrightarrow b \,\,$$ & $$\overrightarrow c \,\,$$ are linearly independent <br><br>$$ \th...	mcq	jee-main-2019-online-12th-january-evening-slot
K0mbLDiKg5frblM18B3rsa0w2w9jxaz0egd	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\alpha $$ $$ \in $$ R and the three vectors <br/><br/>$$\overrightarrow a = \alpha \widehat i + \widehat j + 3\widehat k$$, $$\overrightarrow b = 2\widehat i + \widehat j - \alpha \widehat k$$ <br/><br/>and $$\overrightarrow c = \alpha \widehat i - 2\widehat j + 3\widehat k$$. <br/><br/>Then the set S = {$$\al...	[{"identifier": "A", "content": "contains exactly two numbers only one of which is positive"}, {"identifier": "B", "content": "is singleton"}, {"identifier": "C", "content": "contains exactly two positive numbers"}, {"identifier": "D", "content": "is empty"}]	["D"]	null	Since these vectors are coplanar then,<br><br> $$\left\| {\matrix{ \alpha & 1 & 3 \cr 2 & 1 & { - \alpha } \cr \alpha & { - 2} & 3 \cr } } \right\| = 0$$<br><br> Now, $$\alpha (3 - 2\alpha ) - 1\left( {6 + {\alpha ^2}} \right) + 3\left( { - 4 - \alpha } \right) = 0$$<br><br> $$ ...	mcq	jee-main-2019-online-12th-april-evening-slot
0v0x2Efs8pBEclG5EP3rsa0w2w9jx6glnbj	maths	vector-algebra	scalar-and-vector-triple-product	If the volume of parallelopiped formed by the vectors $$\widehat i + \lambda \widehat j + \widehat k$$, $$\widehat j + \lambda \widehat k$$ and $$\lambda \widehat i + \widehat k$$ is minimum, then $$\lambda $$ is equal to :	[{"identifier": "A", "content": "$$ - {1 \\over {\\sqrt 3 }}$$"}, {"identifier": "B", "content": "$${\\sqrt 3 }$$"}, {"identifier": "C", "content": "$$-{\\sqrt 3 }$$"}, {"identifier": "D", "content": "$$ {1 \\over {\\sqrt 3 }}$$"}]	["D"]	null	$$V = \left[ {\overrightarrow a \overrightarrow b \overrightarrow c } \right] = \left\| {\matrix{ 1 & \lambda & 1 \cr 0 & 1 & \lambda \cr \lambda & 0 & 1 \cr } } \right\|$$<br><br> $$ \Rightarrow 1 - \lambda \left( { - {\lambda ^2}} \right) + 1.\left( {0 - \lambda } \right) = {...	mcq	jee-main-2019-online-12th-april-morning-slot
XR9wDoMoZhk3UqVQLWL6Q	maths	vector-algebra	scalar-and-vector-triple-product	The sum of the distinct real values of $$\mu $$, for which the vectors, $$\mu \widehat i + \widehat j + \widehat k,$$ $$\widehat i + \mu \widehat j + \widehat k,$$ $$\widehat i + \widehat j + \mu \widehat k$$ are co-planar, is :	[{"identifier": "A", "content": "2"}, {"identifier": "B", "content": "$$-$$1"}, {"identifier": "C", "content": "0"}, {"identifier": "D", "content": "1"}]	["B"]	null	$$\left\| {\matrix{ \mu & 1 & 1 \cr 1 & \mu & 1 \cr 1 & 1 & \mu \cr } } \right\| = 0$$ <br><br>$$\mu \left( {{\mu ^2} - 1} \right) - 1\left( {\mu - 1} \right) + 1\left( {1 - \mu } \right) = 0$$ <br><br>$${\mu ^3} - \mu - \mu + 1 + 1\mu = 0$$ <br><br>$${\mu ^3} - 3\mu + 2 =...	mcq	jee-main-2019-online-12th-january-morning-slot
NaM2UpfKHhYSEwnbzsWn0	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a $$ = $$\widehat i - \widehat j$$, $$\overrightarrow b $$ = $$\widehat i + \widehat j + \widehat k$$ and $$\overrightarrow c $$ <br/><br/>be a vector such that $$\overrightarrow a $$ × $$\overrightarrow c $$ + $$\overrightarrow b $$ = $$\overrightarrow 0 $$ <br/><br/>and $$\overrightarrow a $$ ....	[{"identifier": "A", "content": "8"}, {"identifier": "B", "content": "$$19 \\over 2$$"}, {"identifier": "C", "content": "9"}, {"identifier": "D", "content": "$$17 \\over 2$$"}]	["B"]	null	Given that, <br><br>$$\overrightarrow a \times \overrightarrow c + \overrightarrow b = \overrightarrow 0 $$ <br><br>$$ \Rightarrow $$  $$\overrightarrow a \times \left( {\overrightarrow a \times \overrightarrow c } \right) + \overrightarrow a \times \overrightarrow b = \overrightarrow 0 $$ <br><br>$$ ...	mcq	jee-main-2019-online-9th-january-morning-slot
l8CGSsy1iXuyJWw16U7k9k2k5gpqnac	maths	vector-algebra	scalar-and-vector-triple-product	Let the volume of a parallelopiped whose coterminous edges are given by <br/><br>$$\overrightarrow u = \widehat i + \widehat j + \lambda \widehat k$$, $$\overrightarrow v = \widehat i + \widehat j + 3\widehat k$$ and <br/><br>$$\overrightarrow w = 2\widehat i + \widehat j + \widehat k$$ be 1 cu. unit. If $$\theta $$...	[{"identifier": "A", "content": "$${7 \\over {6\\sqrt 3 }}$$"}, {"identifier": "B", "content": "$${7 \\over {6\\sqrt 6 }}$$"}, {"identifier": "C", "content": "$${5 \\over 7}$$"}, {"identifier": "D", "content": "$${5 \\over {3\\sqrt 3 }}$$"}]	["A"]	null	Volume of parallelopiped = 1 <br><br>$$\left\| {\left[ {\matrix{ {\overrightarrow u } & {\overrightarrow v } & {\overrightarrow w } \cr } } \right]} \right\|$$ = 1 <br><br>$$ \Rightarrow $$ $$\left\| {\matrix{ 1 & 1 & \lambda \cr 1 & 1 & 3 \cr 2 & 1 & 1 \cr } } \rig...	mcq	jee-main-2020-online-8th-january-morning-slot
uH7b90Y6mDcfmjaFSn7k9k2k5iu6y6w	maths	vector-algebra	scalar-and-vector-triple-product	If the vectors, $$\overrightarrow p = \left( {a + 1} \right)\widehat i + a\widehat j + a\widehat k$$, <br/><br> $$\overrightarrow q = a\widehat i + \left( {a + 1} \right)\widehat j + a\widehat k$$ and <br/><br> $$\overrightarrow r = a\widehat i + a\widehat j + \left( {a + 1} \right)\widehat k\left( {a \in R} \right)...	[]	null	1	$$ \because $$ $$\overrightarrow p$$, $$\overrightarrow q$$, $$\overrightarrow r$$ are coplanar <br><br>$$ \therefore $$ $$\left[ {\matrix{ {\overrightarrow p } & {\overrightarrow q } & {\overrightarrow r } \cr } } \right]$$ = 0 <br><br>$$ \Rightarrow $$ $$\left\| {\matrix{ {a + 1} & a & a \cr...	integer	jee-main-2020-online-9th-january-morning-slot
9QNY5X8lrChVbAhY95jgy2xukf7gthwr	maths	vector-algebra	scalar-and-vector-triple-product	Let x<sub>0</sub> be the point of Local maxima of $$f(x) = \overrightarrow a .\left( {\overrightarrow b \times \overrightarrow c } \right)$$, where <br/>$$\overrightarrow a = x\widehat i - 2\widehat j + 3\widehat k$$, $$\overrightarrow b = - 2\widehat i + x\widehat j - \widehat k$$, $$\overrightarrow c = 7\widehat...	[{"identifier": "A", "content": "14"}, {"identifier": "B", "content": "-30"}, {"identifier": "C", "content": "-4"}, {"identifier": "D", "content": "-22"}]	["D"]	null	$$f(x) = \overrightarrow a \,.\,(\overrightarrow b \times \overrightarrow c )$$<br><br>$$ = \left[ {\overrightarrow a \,\overrightarrow b \,\overrightarrow c } \right]$$<br><br>$$ = \left\| {\matrix{ x & { - 2} & 3 \cr { - 2} & x & { - 1} \cr 7 & { - 2} & x \cr } } \right\|$$<br>...	mcq	jee-main-2020-online-4th-september-morning-slot
WGSrrJfn4qBtQkI2kKjgy2xukfg6dkb0	maths	vector-algebra	scalar-and-vector-triple-product	If the volume of a parallelopiped, whose<br/> coterminus edges are given by the <br/>vectors $$\overrightarrow a = \widehat i + \widehat j + n\widehat k$$, <br/>$$\overrightarrow b = 2\widehat i + 4\widehat j - n\widehat k$$ and <br/>$$\overrightarrow c = \widehat i + n\widehat j + 3\widehat k$$ ($$n \ge 0$$), is 1...	[{"identifier": "A", "content": "n = 7"}, {"identifier": "B", "content": "$$\\overrightarrow b .\\overrightarrow c = 10$$"}, {"identifier": "C", "content": "$$\\overrightarrow a .\\overrightarrow c = 17$$"}, {"identifier": "D", "content": "n = 9"}]	["B"]	null	We know, Volume(V) = $$\left[ {\overrightarrow a \overrightarrow b \overrightarrow c } \right]$$ <br><br>$$ \Rightarrow $$ 158 = $$\left\| {\matrix{ 1 & 1 & n \cr 2 & 4 & { - n} \cr 1 & n & 3 \cr } } \right\|$$ <br><br>$$ \Rightarrow $$ (12 + n<sup>2</sup>) – (6 + n) + n(2n–4)=158...	mcq	jee-main-2020-online-5th-september-morning-slot
MgYtxj9nMPDMzcRPl01klrie7jw	maths	vector-algebra	scalar-and-vector-triple-product	Let three vectors $$\overrightarrow a ,\overrightarrow b $$ and $$\overrightarrow c $$ be such that $$\overrightarrow c $$ is coplanar <br/>with $$\overrightarrow a $$ and $$\overrightarrow b $$, $$\overrightarrow a .\overrightarrow c $$ = 7 and $$\overrightarrow b $$ is perpendicular to $$\overrightarrow c $$, ...	[]	null	75	$$\overrightarrow c = \lambda (\overrightarrow b \times (\overrightarrow a \times \overrightarrow b ))$$<br><br>$$ = \lambda ((\overrightarrow b \,.\,\overrightarrow b )\overrightarrow a - (\overrightarrow b \,.\,\overrightarrow a )\overrightarrow b )$$<br><br>$$ = \lambda (5( - \widehat i + \widehat j + \widehat k...	integer	jee-main-2021-online-24th-february-morning-slot
obXnX2oiZZRcp8NgLj1klugp3ss	maths	vector-algebra	scalar-and-vector-triple-product	If $$\overrightarrow a $$ and $$\overrightarrow b $$ are perpendicular, then <br/>$$\overrightarrow a \times \left( {\overrightarrow a \times \left( {\overrightarrow a \times \left( {\overrightarrow a \times \overrightarrow b } \right)} \right)} \right)$$ is equal to :	[{"identifier": "A", "content": "$${1 \\over 2}\|\\overrightarrow a {\|^4}\\overrightarrow b $$"}, {"identifier": "B", "content": "$$\\overrightarrow 0 $$"}, {"identifier": "C", "content": "$$\\overrightarrow a \\times \\overrightarrow b $$"}, {"identifier": "D", "content": "$$\|\\overrightarrow a {\|^4}\\overrightarrow b...	["D"]	null	$$\overrightarrow a \,.\,\overrightarrow b = 0$$<br><br>$$\overrightarrow a \times (\overrightarrow a \times \overrightarrow b ) = (\overrightarrow a \,.\,\overrightarrow b )\overrightarrow a - (\overrightarrow a \,.\,\overrightarrow a )\overrightarrow b = - \|\overrightarrow a {\|^2}\overrightarrow b $$<br><br>Now...	mcq	jee-main-2021-online-26th-february-morning-slot
XOTDvrbroQnWGWAp5G1kmizgckj	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow c $$ be a vector perpendicular to the vectors, $$\overrightarrow a $$ = $$\widehat i$$ + $$\widehat j$$ $$-$$ $$\widehat k$$ and <br/>$$\overrightarrow b $$ = $$\widehat i$$ + 2$$\widehat j$$ + $$\widehat k$$. If $$\overrightarrow c \,.\,\left( {\widehat i + \widehat j + 3\widehat k} \right)$$ = 8...	[]	null	28	$$\overrightarrow a \times \overrightarrow b = \left\| {\matrix{ {\widehat i} & {\widehat j} & {\widehat k} \cr 1 & 1 & { - 1} \cr 1 & 2 & 1 \cr } } \right\| = (3, - 2,1)$$<br><br>$$\overrightarrow c \bot \overrightarrow a ,\overrightarrow c \bot \overrightarrow b \Rightarrow...	integer	jee-main-2021-online-16th-march-evening-shift
Z7BG0LplvDpHW9S7EN1kmjafjsy	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a $$ = 2$$\widehat i$$ $$-$$ 3$$\widehat j$$ + 4$$\widehat k$$ and $$\overrightarrow b $$ = 7$$\widehat i$$ + $$\widehat j$$ $$-$$ 6$$\widehat k$$.<br/><br/>If $$\overrightarrow r $$ $$\times$$ $$\overrightarrow a $$ = $$\overrightarrow r $$ $$\times$$ $$\overrightarrow b $$, $$\overrightarrow r $...	[{"identifier": "A", "content": "10"}, {"identifier": "B", "content": "8"}, {"identifier": "C", "content": "13"}, {"identifier": "D", "content": "12"}]	["D"]	null	$$\overrightarrow a = (2, - 3,4)$$, $$\overrightarrow b = (7,1, - 6)$$<br><br>$$\overrightarrow r \times \overrightarrow a - \overrightarrow r \times \overrightarrow b = 0$$<br><br>$$\overrightarrow r \times (\overrightarrow a - \overrightarrow b ) = 0$$<br><br>$$\overrightarrow r = \lambda (\overrightarrow a ...	mcq	jee-main-2021-online-17th-march-morning-shift
ALfCwHSHBoNiDqWmYY1kmjckog0	maths	vector-algebra	scalar-and-vector-triple-product	If $$\overrightarrow a = \alpha \widehat i + \beta \widehat j + 3\widehat k$$,<br/><br/>$$\overrightarrow b = - \beta \widehat i - \alpha \widehat j - \widehat k$$ and <br/><br/>$$\overrightarrow c = \widehat i - 2\widehat j - \widehat k$$<br/><br/>such that $$\overrightarrow a \,.\,\overrightarrow b = 1$$ and $$\...	[]	null	2	$$\overrightarrow a .\overrightarrow b = 1 \Rightarrow - \alpha \beta - \alpha \beta - 3 = 1$$<br><br>$$ \Rightarrow \alpha \beta = - 2$$ .... (i)<br><br>$$\overrightarrow b .\overrightarrow c = - 3 \Rightarrow - \beta + 2\alpha + 1 = - 3$$<br><br>$$2\alpha - \beta = - 4$$ ..... (ii)<br><br>Solving (i) &...	integer	jee-main-2021-online-17th-march-morning-shift
7hj16RzMi655FEX1h41kmkmjktz	maths	vector-algebra	scalar-and-vector-triple-product	Let O be the origin. Let $$\overrightarrow {OP} = x\widehat i + y\widehat j - \widehat k$$ and $$\overrightarrow {OQ} = - \widehat i + 2\widehat j + 3x\widehat k$$, x, y$$\in$$R, x > 0, be such that $$\left\| {\overrightarrow {PQ} } \right\| = \sqrt {20} $$ and the vector $$\overrightarrow {OP} $$ is perpendicular ...	[{"identifier": "A", "content": "2"}, {"identifier": "B", "content": "9"}, {"identifier": "C", "content": "7"}, {"identifier": "D", "content": "1"}]	["B"]	null	$$\overrightarrow {OP} = x\widehat i + y\widehat j - \widehat k\,$$ <br/><br/>$$\overrightarrow {OP} \bot \overrightarrow {OQ} $$<br><br>$$\overrightarrow {OQ} = - \widehat i + 2\widehat j + 3x\widehat k$$<br><br>$$\overrightarrow {PQ} = \left( { - 1 - x} \right)\widehat i + \left( {2 - y} \right)\widehat j + \lef...	mcq	jee-main-2021-online-17th-march-evening-shift
1krpwmm6x	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a = 2\widehat i + \widehat j - 2\widehat k$$ and $$\overrightarrow b = \widehat i + \widehat j$$. If $$\overrightarrow c $$ is a vector such that $$\overrightarrow a .\,\overrightarrow c = \left\| {\overrightarrow c } \right\|,\left\| {\overrightarrow c - \overrightarrow a } \right\| = 2\sqrt 2 $$...	[{"identifier": "A", "content": "$${2 \\over 3}$$"}, {"identifier": "B", "content": "4"}, {"identifier": "C", "content": "3"}, {"identifier": "D", "content": "$${3 \\over 2}$$"}]	["D"]	null	$$\left\| {\overrightarrow a } \right\| = 3 = a;\overrightarrow a \,.\,\overrightarrow c = c$$<br><br>Now, $$\left\| {\overrightarrow c - \overrightarrow a } \right\| = 2\sqrt 2 $$<br><br>$$ \Rightarrow {c^2} + {a^2} - 2\overrightarrow c \,.\,\overrightarrow a = 8$$<br><br>$$ \Rightarrow {c^2} + 9 - 2(c) = 8$$<br><br>$$...	mcq	jee-main-2021-online-20th-july-morning-shift
1krtcv0nx	maths	vector-algebra	scalar-and-vector-triple-product	Let a vector $${\overrightarrow a }$$ be coplanar with vectors $$\overrightarrow b = 2\widehat i + \widehat j + \widehat k$$ and $$\overrightarrow c = \widehat i - \widehat j + \widehat k$$. If $${\overrightarrow a}$$ is perpendicular to $$\overrightarrow d = 3\widehat i + 2\widehat j + 6\widehat k$$, and $$\left\| {...	[{"identifier": "A", "content": "$$-$$42"}, {"identifier": "B", "content": "$$-$$40"}, {"identifier": "C", "content": "$$-$$29"}, {"identifier": "D", "content": "$$-$$38"}]	["A"]	null	$$\overrightarrow a = \lambda \overrightarrow b + \mu \overrightarrow c = \widehat i(2\lambda + \mu ) + \widehat j(\lambda - \mu ) + \widehat k(\lambda + \mu )$$<br><br>$$\overrightarrow a \,.\,\overrightarrow d = 0 = 3(2\lambda + \mu ) + 2(\lambda - \mu ) + 6(\lambda + \mu )$$<br><br>$$ \Rightarrow 14\lambda...	mcq	jee-main-2021-online-22th-july-evening-shift
1krthnmq3	maths	vector-algebra	scalar-and-vector-triple-product	Let three vectors $$\overrightarrow a $$, $$\overrightarrow b $$ and $$\overrightarrow c $$ be such that $$\overrightarrow a \times \overrightarrow b = \overrightarrow c $$, $$\overrightarrow b \times \overrightarrow c = \overrightarrow a $$ and $$\left\| {\overrightarrow a } \right\| = 2$$. Then which one of the fol...	[{"identifier": "A", "content": "$$\\overrightarrow a \\times \\left( {(\\overrightarrow b + \\overrightarrow c ) \\times (\\overrightarrow b \\times \\overrightarrow c )} \\right) = \\overrightarrow 0 $$"}, {"identifier": "B", "content": "Projection of $$\\overrightarrow a $$ on $$(\\overrightarrow b \\times \\ove...	["D"]	null	(1) $$\overrightarrow a \times \left( {(\overrightarrow b + \overrightarrow c ) \times (\overrightarrow b \times \overrightarrow c )} \right)$$<br><br>$$ = \overrightarrow a ( - \overrightarrow b \times \overrightarrow c + \overrightarrow c \times \overrightarrow b ) = - 2\left( {\overrightarrow a \times (\over...	mcq	jee-main-2021-online-22th-july-evening-shift
1krvuv970	maths	vector-algebra	scalar-and-vector-triple-product	Let the vectors<br/><br/>$$(2 + a + b)\widehat i + (a + 2b + c)\widehat j - (b + c)\widehat k,(1 + b)\widehat i + 2b\widehat j - b\widehat k$$ and $$(2 + b)\widehat i + 2b\widehat j + (1 - b)\widehat k$$, $$a,b,c, \in R$$<br><br/> be co-planar. Then which of the following is true?</br>	[{"identifier": "A", "content": "2b = a + c"}, {"identifier": "B", "content": "3c = a + b"}, {"identifier": "C", "content": "a = b + 2c"}, {"identifier": "D", "content": "2a = b + c"}]	["A"]	null	If the vectors are co-planar,<br><br>$$\left\| {\matrix{ {a + b + 2} & {a + 2b + c} & { - b - c} \cr {b + 1} & {2b} & { - b} \cr {b + 2} & {2b} & {1 - b} \cr } } \right\| = 0$$<br><br>Now, $${R_3} \to {R_3} - {R_2},{R_1} \to {R_1} - {R_2}$$<br><br>So, $$\left\| {\matrix{ {a + 1}...	mcq	jee-main-2021-online-25th-july-morning-shift
1kryf0e1y	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a $$, $$\overrightarrow b $$ and $$\overrightarrow c $$ be three vectors such that $$\overrightarrow a $$ = $$\overrightarrow b $$ $$\times$$ ($$\overrightarrow b $$ $$\times$$ $$\overrightarrow c $$). If magnitudes of the vectors $$\overrightarrow a $$, $$\overrightarrow b $$ and $$\overrightarro...	[{"identifier": "A", "content": "$$\\sqrt 3 + 1$$"}, {"identifier": "B", "content": "2"}, {"identifier": "C", "content": "1"}, {"identifier": "D", "content": "$${{\\sqrt 3 + 1} \\over {\\sqrt 3 }}$$"}]	["B"]	null	$$\overrightarrow a = \left( {\overrightarrow b .\,\overrightarrow c } \right)\overrightarrow b - \left( {\overrightarrow b \,.\,\overrightarrow b } \right)\overrightarrow c $$<br><br>$$ = 1.2\cos \theta \overrightarrow b - \overrightarrow c $$<br><br>$$ \Rightarrow \overrightarrow a = 2\cos \theta \overrightarrow ...	mcq	jee-main-2021-online-27th-july-evening-shift
1kryfi5s7	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a = \widehat i - \alpha \widehat j + \beta \widehat k$$, $$\overrightarrow b = 3\widehat i + \beta \widehat j - \alpha \widehat k$$ and $$\overrightarrow c = -\alpha \widehat i - 2\widehat j + \widehat k$$, where $$\alpha$$ and $$\beta$$ are integers. If $$\overrightarrow a \,.\,\overrightarr...	[]	null	9	$$\overrightarrow a = (1, - \alpha ,\beta )$$<br><br>$$\overrightarrow b = (3,\beta , - \alpha )$$<br><br>$$\overrightarrow c = ( - \alpha , - 2,1);\alpha ,\beta \in I$$<br><br>$$\overrightarrow a \,.\,\overrightarrow b = - 1 \Rightarrow 3 - \alpha \beta - \alpha \beta = - 1$$<br><br>$$ \Rightarrow \alpha \bet...	integer	jee-main-2021-online-27th-july-evening-shift
1ktbebrpm	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a = \widehat i + \widehat j + \widehat k$$ and $$\overrightarrow b = \widehat j - \widehat k$$. If $$\overrightarrow c $$ is a vector such that $$\overrightarrow a \times \overrightarrow c = \overrightarrow b $$ and $$\overrightarrow a .\overrightarrow c = 3$$, then $$\overrightarrow a .(\ove...	[{"identifier": "A", "content": "$$-$$2"}, {"identifier": "B", "content": "$$-$$6"}, {"identifier": "C", "content": "6"}, {"identifier": "D", "content": "2"}]	["A"]	null	$$\left\| {\overrightarrow a } \right\| = \sqrt 3 $$; $$\overrightarrow a .\overrightarrow c = 3$$; $$\overrightarrow a \times \overrightarrow b = - 2\widehat i + \widehat j + \widehat k$$, $$\overrightarrow a \times \overrightarrow c = \overrightarrow b $$<br><br>Cross with $$\overrightarrow a $$,<br><br>$$\overri...	mcq	jee-main-2021-online-26th-august-morning-shift
1ktk3sgt1	maths	vector-algebra	scalar-and-vector-triple-product	Let $$\overrightarrow a ,\overrightarrow b ,\overrightarrow c $$ three vectors mutually perpendicular to each other and have same magnitude. If a vector $${ \overrightarrow r } $$ satisfies. <br/><br/>$$\overrightarrow a \times \{ (\overrightarrow r - \overrightarrow b ) \times \overrightarrow a \} + \overrightar...	[{"identifier": "A", "content": "$${1 \\over 3}(\\overrightarrow a + \\overrightarrow b + \\overrightarrow c )$$"}, {"identifier": "B", "content": "$${1 \\over 3}(2\\overrightarrow a + \\overrightarrow b - \\overrightarrow c )$$"}, {"identifier": "C", "content": "$${1 \\over 2}(\\overrightarrow a + \\overrightarro...	["C"]	null	Suppose $$\overrightarrow r = x\overrightarrow a + y\overrightarrow b + 2\overrightarrow c $$<br><br>and $$\left\| {\overrightarrow a } \right\| = \left\| {\overrightarrow b } \right\| = \left\| {\overrightarrow c } \right\| = k$$<br><br>$$\overrightarrow a \times \{ (\overrightarrow r - \overrightarrow b ) \times \over...	mcq	jee-main-2021-online-31st-august-evening-shift
1l58a2gs8	maths	vector-algebra	scalar-and-vector-triple-product	<p>If $$\overrightarrow a \,.\,\overrightarrow b = 1,\,\overrightarrow b \,.\,\overrightarrow c = 2$$ and $$\overrightarrow c \,.\,\overrightarrow a = 3$$, then the value of $$\left[ {\overrightarrow a \times \left( {\overrightarrow b \times \overrightarrow c } \right),\,\overrightarrow b \times \left( {\overrigh...	[{"identifier": "A", "content": "0"}, {"identifier": "B", "content": "$$ - 6\\overrightarrow a \\,.\\,\\left( {\\overrightarrow b \\times \\overrightarrow c } \\right)$$"}, {"identifier": "C", "content": "$$ - 12\\overrightarrow c \\,.\\,\\left( {\\overrightarrow a \\times \\overrightarrow b } \\right)$$"}, {"identif...	["A"]	null	<p>$$\because$$ $$\overrightarrow a \times \left( {\overrightarrow b \times \overrightarrow c } \right) = 3\overrightarrow b - \overrightarrow c = \overrightarrow u $$</p> <p>$$\overrightarrow b \times \left( {\overrightarrow c \times \overrightarrow a } \right) = \overrightarrow c - 2\overrightarrow a = \overr...	mcq	jee-main-2022-online-26th-june-morning-shift
1l5w0bd5u	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let a vector $$\overrightarrow c $$ be coplanar with the vectors $$\overrightarrow a = - \widehat i + \widehat j + \widehat k$$ and $$\overrightarrow b = 2\widehat i + \widehat j - \widehat k$$. If the vector $$\overrightarrow c $$ also satisfies the conditions $$\overrightarrow c \,.\,\left[ {\left( {\overrighta...	[{"identifier": "A", "content": "24"}, {"identifier": "B", "content": "29"}, {"identifier": "C", "content": "35"}, {"identifier": "D", "content": "42"}]	["C"]	null	<p>Given,</p> <p>$$\overrightarrow a = - \widehat i + \widehat j + \widehat k$$</p> <p>$$\overrightarrow b = 2\widehat i + \widehat j - \widehat k$$</p> <p>and let $$\overrightarrow c = x\widehat i + y\widehat j + z\widehat k$$</p> <p>Now, $$\overrightarrow a + \overrightarrow b = \widehat i + 2\widehat j$$</p> <...	mcq	jee-main-2022-online-30th-june-morning-shift
1l6jc594i	maths	vector-algebra	scalar-and-vector-triple-product	<p>$$ \text { Let } \vec{a}=2 \hat{i}-\hat{j}+5 \hat{k} \text { and } \vec{b}=\alpha \hat{i}+\beta \hat{j}+2 \hat{k} \text {. If }((\vec{a} \times \vec{b}) \times \hat{i}) \cdot \hat{k}=\frac{23}{2} \text {, then }\|\vec{b} \times 2 \hat{j}\| $$ is equal to :</p>	[{"identifier": "A", "content": "4"}, {"identifier": "B", "content": "5"}, {"identifier": "C", "content": "$$\\sqrt{21}$$"}, {"identifier": "D", "content": "$$\\sqrt{17}$$"}]	["B"]	null	<p>Given, $$\overrightarrow a = 2\widehat i - \widehat j + 5\widehat k$$ and $$\overrightarrow b = \alpha \widehat i + \beta \widehat j + 2\widehat k$$</p> <p>Also, $$\left( {\left( {\overrightarrow a \times \overrightarrow b } \right) \times i} \right)\,.\,\widehat k = {{23} \over 2}$$</p> <p>$$ \Rightarrow \left( ...	mcq	jee-main-2022-online-27th-july-morning-shift
1l6p23cfm	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let $$\overrightarrow{\mathrm{a}}=3 \hat{i}+\hat{j}$$ and $$\overrightarrow{\mathrm{b}}=\hat{i}+2 \hat{j}+\hat{k}$$. Let $$\overrightarrow{\mathrm{c}}$$ be a vector satisfying $$\overrightarrow{\mathrm{a}} \times(\overrightarrow{\mathrm{b}} \times \overrightarrow{\mathrm{c}})=\overrightarrow{\mathrm{b}}+\lambda \ove...	[{"identifier": "A", "content": "$$-$$5"}, {"identifier": "B", "content": "5"}, {"identifier": "C", "content": "1"}, {"identifier": "D", "content": "$$-$$1"}]	["A"]	null	<p>$$\overrightarrow a = 3\widehat i + \widehat j$$ & $$\overrightarrow b = \widehat i + 2\widehat j + \widehat k$$</p> <p>$$\overrightarrow a \times (\overrightarrow b \times \overrightarrow c ) = (\overrightarrow a \,.\,\overrightarrow c )\overrightarrow b - (\overrightarrow a \,.\,\overrightarrow b )\overrighta...	mcq	jee-main-2022-online-29th-july-morning-shift
1ldoob9wo	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let $$\vec{v}=\alpha \hat{i}+2 \hat{j}-3 \hat{k}, \vec{w}=2 \alpha \hat{i}+\hat{j}-\hat{k}$$ and $$\vec{u}$$ be a vector such that $$\|\vec{u}\|=\alpha>0$$. If the minimum value of the scalar triple product $$\left[ {\matrix{ {\overrightarrow u } & {\overrightarrow v } & {\overrightarrow w } \cr } } ...	[]	null	3501	$\vec{v} \times \vec{w}=\left\|\begin{array}{ccc}\hat{i} & \hat{j} & \hat{k} \\ \alpha & 2 & -3 \\ 2 \alpha & 1 & -1\end{array}\right\|=\hat{i}-5 \alpha \hat{j}-3 \alpha \hat{k}$ <br/><br/>$$\left[ {\matrix{ {\overrightarrow u } & {\overrightarrow v } & {\overrightarrow w } \cr } } \right] = \overrightarrow u .\l...	integer	jee-main-2023-online-1st-february-morning-shift
ldqwqsa2	maths	vector-algebra	scalar-and-vector-triple-product	Let $\lambda \in \mathbb{R}, \vec{a}=\lambda \hat{i}+2 \hat{j}-3 \hat{k}, \vec{b}=\hat{i}-\lambda \hat{j}+2 \hat{k}$. <br/><br/>If $((\vec{a}+\vec{b}) \times(\vec{a} \times \vec{b})) \times(\vec{a}-\vec{b})=8 \hat{i}-40 \hat{j}-24 \hat{k}$,<br/><br/> then $\|\lambda(\vec{a}+\vec{b}) \times(\vec{a}-\vec{b})\|^2$ is equal ...	[{"identifier": "A", "content": "136"}, {"identifier": "B", "content": "140"}, {"identifier": "C", "content": "144"}, {"identifier": "D", "content": "132"}]	["B"]	null	<p>$$\left( {\overrightarrow a \times \left( {\overrightarrow a \times \overrightarrow b } \right) + \overrightarrow b \times \left( {\overrightarrow a \times \overrightarrow b } \right)} \right) \times \left( {\overrightarrow a - \overrightarrow b } \right)$$</p> <p>$$ = \left( {\overrightarrow a \left( {\overrig...	mcq	jee-main-2023-online-30th-january-evening-shift
1ldr70m58	maths	vector-algebra	scalar-and-vector-triple-product	<p>If $$\overrightarrow a ,\overrightarrow b ,\overrightarrow c $$ are three non-zero vectors and $$\widehat n$$ is a unit vector perpendicular to $$\overrightarrow c $$ such that $$\overrightarrow a = \alpha \overrightarrow b - \widehat n,(\alpha \ne 0)$$ and $$\overrightarrow b \,.\overrightarrow c = 12$$, then $...	[{"identifier": "A", "content": "15"}, {"identifier": "B", "content": "9"}, {"identifier": "C", "content": "6"}, {"identifier": "D", "content": "12"}]	["D"]	null	<p>$$\widehat n = \alpha \overrightarrow b - \overrightarrow a $$</p> <p>$$\overrightarrow c \times \left( {\overrightarrow a \times \overrightarrow b } \right) = \left( {\overrightarrow c \,.\,\overrightarrow b } \right)\overrightarrow a - \left( {\overrightarrow c \,.\,\overrightarrow a } \right)\overrightarrow b...	mcq	jee-main-2023-online-30th-january-morning-shift
1ldsx2tkq	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let $$\overrightarrow a $$, $$\overrightarrow b $$ and $$\overrightarrow c $$ be three non-zero non-coplanar vectors. Let the position vectors of four points $$A,B,C$$ and $$D$$ be $$\overrightarrow a - \overrightarrow b + \overrightarrow c ,\lambda \overrightarrow a - 3\overrightarrow b + 4\overrightarrow c , -...	[]	null	2	$\overline{A B}=(\lambda-1) \bar{a}-2 \bar{b}+3 \bar{c}$ <br/><br/> $$ \overline{A C}=2 \bar{a}+3 \bar{b}-4 \bar{c} $$<br/><br/>$$ \overline{A D}=\bar{a}-3 \bar{b}+5 \bar{c} $$<br/><br/>$$ \left\|\begin{array}{ccc} \lambda-1 & -2 & 3 \\ -2 & 3 & -4 \\ 1 & -3 & 5 \end{array}\right\|=0 $$<br/><br/>$$ \Rightarrow(\lambda-1)...	integer	jee-main-2023-online-29th-january-morning-shift
1ldu5mzow	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let $$\overrightarrow a = - \widehat i - \widehat j + \widehat k,\overrightarrow a \,.\,\overrightarrow b = 1$$ and $$\overrightarrow a \times \overrightarrow b = \widehat i - \widehat j$$. Then $$\overrightarrow a - 6\overrightarrow b $$ is equal to :</p>	[{"identifier": "A", "content": "$$3\\left( {\\widehat i + \\widehat j + \\widehat k} \\right)$$"}, {"identifier": "B", "content": "$$3\\left( {\\widehat i - \\widehat j - \\widehat k} \\right)$$"}, {"identifier": "C", "content": "$$3\\left( {\\widehat i + \\widehat j - \\widehat k} \\right)$$"}, {"identifier": "D", "c...	["A"]	null	$$ \overrightarrow{\mathrm{a}} \times \overrightarrow{\mathrm{b}}=(\hat{\mathrm{i}}-\hat{\mathrm{j}}) $$<br/><br/> Taking cross product with $\vec{a}$<br/><br/> $$ \begin{aligned} & \Rightarrow \vec{a} \times(\vec{a} \times \vec{b})=\vec{a} \times(\hat{i}-\hat{j}) \\\\ & \Rightarrow (\vec{a} \cdot \vec{b}) \vec{a}-(\v...	mcq	jee-main-2023-online-25th-january-evening-shift
1ldu5p9lo	maths	vector-algebra	scalar-and-vector-triple-product	<p>If the four points, whose position vectors are $$3\widehat i - 4\widehat j + 2\widehat k,\widehat i + 2\widehat j - \widehat k, - 2\widehat i - \widehat j + 3\widehat k$$ and $$5\widehat i - 2\alpha \widehat j + 4\widehat k$$ are coplanar, then $$\alpha$$ is equal to :</p>	[{"identifier": "A", "content": "$${{73} \\over {17}}$$"}, {"identifier": "B", "content": "$$ - {{73} \\over {17}}$$"}, {"identifier": "C", "content": "$$ - {{107} \\over {17}}$$"}, {"identifier": "D", "content": "$${{107} \\over {17}}$$"}]	["A"]	null	Let $\mathrm{A}:(3,-4,2) \quad \mathrm{C}:(-2,-1,3)$<br/><br/> $$ \text { B : }(1,2,-1) \quad \text { D: }(5,-2 \alpha, 4) $$<br/><br/> A, B, C, D are coplanar points, then<br/><br/> $$ \begin{aligned} & \Rightarrow\left\|\begin{array}{ccc} 1-3 & 2+4 & -1-2 \\ -2-3 & -1+4 & 3-2 \\ 5-3 & -2 \alpha+4 & 4-2 \end{array}\rig...	mcq	jee-main-2023-online-25th-january-evening-shift
1ldv26m8w	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let $$\overrightarrow a $$, $$\overrightarrow b $$ and $$\overrightarrow c $$ be three non zero vectors such that $$\overrightarrow b $$ . $$\overrightarrow c $$ = 0 and $$\overrightarrow a \times (\overrightarrow b \times \overrightarrow c ) = {{\overrightarrow b - \overrightarrow c } \over 2}$$. If $$\overright...	[{"identifier": "A", "content": "$$\\frac{1}{2}$$"}, {"identifier": "B", "content": "$$-\\frac{1}{4}$$"}, {"identifier": "C", "content": "$$\\frac{1}{4}$$"}, {"identifier": "D", "content": "$$\\frac{3}{4}$$"}]	["C"]	null	$\vec{b}(\vec{a} \cdot \vec{c})-\vec{c}(\vec{a} \cdot \vec{b})=\frac{\vec{b}-\vec{c}}{2}$ $\vec{a} \cdot \vec{c}=\frac{1}{2}, \quad \vec{a} \cdot \vec{b}=\frac{1}{2}$ <br/><br/> $$ \begin{aligned} (\vec{a} \times \vec{b}) \cdot(\vec{c} \times \vec{d}) & =(\vec{b} \cdot \vec{d})(\vec{a} \cdot \vec{c})-(\vec{a} \cdot \ve...	mcq	jee-main-2023-online-25th-january-morning-shift
1ldybqbds	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let $$\overrightarrow u = \widehat i - \widehat j - 2\widehat k,\overrightarrow v = 2\widehat i + \widehat j - \widehat k,\overrightarrow v .\,\overrightarrow w = 2$$ and $$\overrightarrow v \times \overrightarrow w = \overrightarrow u + \lambda \overrightarrow v $$. Then $$\overrightarrow u .\,\overrightarrow...	[{"identifier": "A", "content": "$$ - {2 \\over 3}$$"}, {"identifier": "B", "content": "$${3 \\over 2}$$"}, {"identifier": "C", "content": "2"}, {"identifier": "D", "content": "1"}]	["D"]	null	$$ \begin{aligned} &\begin{aligned} & \vec{v} \times \vec{w}=(\vec{u}+\lambda \vec{v})=\hat{i}-\hat{j}-2 \hat{k}+\lambda(2 \hat{i}+\hat{j}-\hat{k}) \\\\ & =(2 \lambda+1) \hat{i}+(\lambda-1) \hat{j}-(2+\lambda) \hat{k} \\ & \end{aligned}\\ &\begin{aligned} & \text { Now, } \vec{v} \cdot(\vec{v} \times \vec{w})=0 \\\\ & ...	mcq	jee-main-2023-online-24th-january-morning-shift
lgnw7ha3	maths	vector-algebra	scalar-and-vector-triple-product	Let $S$ be the set of all $(\lambda, \mu)$ for which the vectors $\lambda \hat{i}-\hat{j}+\hat{k}, \hat{i}+2 \hat{j}+\mu \hat{k}$ and $3 \hat{i}-4 \hat{j}+5 \hat{k}$, where $\lambda-\mu=5$, are coplanar, then $\sum\limits_{(\lambda, \mu) \in S} 80\left(\lambda^2+\mu^2\right)$ is equal to :	[{"identifier": "A", "content": "2370"}, {"identifier": "B", "content": "2130"}, {"identifier": "C", "content": "2210"}, {"identifier": "D", "content": "2290"}]	["D"]	null	Step 1: Given condition for coplanarity <br/><br/>For three vectors to be coplanar, their scalar triple product must be zero. We have the vectors A, B, and C, and we know the given relation between λ and μ: <br/><br/>$$A = \lambda \hat{i} - \hat{j} + \hat{k}$$ <br/><br/>$$B = \hat{i} + 2 \hat{j} + \mu \hat{k}$$ <br/><...	mcq	jee-main-2023-online-15th-april-morning-shift
1lgrellln	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let $$a, b, c$$ be three distinct real numbers, none equal to one. If the vectors $$a \hat{i}+\hat{\mathrm{j}}+\hat{\mathrm{k}}, \hat{\mathrm{i}}+b \hat{j}+\hat{\mathrm{k}}$$ and $$\hat{\mathrm{i}}+\hat{\mathrm{j}}+c \hat{\mathrm{k}}$$ are coplanar, then $$\frac{1}{1-a}+\frac{1}{1-b}+\frac{1}{1-c}$$ is equal to :</p...	[{"identifier": "A", "content": "$$-$$2"}, {"identifier": "B", "content": "1"}, {"identifier": "C", "content": "$$-$$1"}, {"identifier": "D", "content": "2"}]	["B"]	null	$$ \left\|\begin{array}{lll} a & 1 & 1 \\\\ 1 & \mathrm{~b} & 1 \\\\ 1 & 1 & \mathrm{c} \end{array}\right\|=0 $$ <br/><br/>$$ \mathrm{C}_2 \rightarrow \mathrm{C}_2-\mathrm{C}_1, \mathrm{C}_3 \rightarrow \mathrm{C}_3-\mathrm{C}_1 $$ <br/><br/>$$ \begin{aligned} & \left\|\begin{array}{lll} a & 1-a & 1-a \\ 1 & b-1 & 0 \\ 1 ...	mcq	jee-main-2023-online-12th-april-morning-shift
1lgremt4q	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let $$\lambda \in \mathbb{Z}, \vec{a}=\lambda \hat{i}+\hat{j}-\hat{k}$$ and $$\vec{b}=3 \hat{i}-\hat{j}+2 \hat{k}$$. Let $$\vec{c}$$ be a vector such that $$(\vec{a}+\vec{b}+\vec{c}) \times \vec{c}=\overrightarrow{0}, \vec{a} \cdot \vec{c}=-17$$ and $$\vec{b} \cdot \vec{c}=-20$$. Then $$\|\vec{c} \times(\lambda \hat{...	[{"identifier": "A", "content": "53"}, {"identifier": "B", "content": "62"}, {"identifier": "C", "content": "49"}, {"identifier": "D", "content": "46"}]	["D"]	null	The given vectors are : <br/><br/>$$\vec{a} = \lambda \hat{i} + \hat{j} - \hat{k}$$ <br/><br/>$$\vec{b} = 3\hat{i} - \hat{j} + 2\hat{k}$$ <br/><br/>We are given that $(\vec{a} + \vec{b} + \vec{c}) \times \vec{c} = 0$ which implies $(\vec{a} + \vec{b}) \times \vec{c} = 0$. So, $\vec{c}$ is in the direction of $\vec{a...	mcq	jee-main-2023-online-12th-april-morning-shift
1lgsujylg	maths	vector-algebra	scalar-and-vector-triple-product	<p>If four distinct points with position vectors $$\vec{a}, \vec{b}, \vec{c}$$ and $$\vec{d}$$ are coplanar, then $$[\vec{a} \,\,\vec{b} \,\,\vec{c}]$$ is equal to :</p>	[{"identifier": "A", "content": "$$[\\vec{d} \\,\\,\\,\\,\\,\\vec{b} \\,\\,\\,\\,\\,\\vec{a}]+[\\vec{a} \\,\\,\\,\\,\\,\\vec{c} \\,\\,\\,\\,\\,\\vec{d}]+[\\vec{d} \\,\\,\\,\\,\\,\\vec{b} \\,\\,\\,\\,\\,\\vec{c}]$$"}, {"identifier": "B", "content": "$$[\\vec{b} \\,\\,\\,\\,\\,\\vec{c} \\,\\,\\,\\,\\,\\vec{d}]+[\\vec{d} ...	["D"]	null	$$ \begin{aligned} & {[\vec{b}-\vec{a} \,\,\,\,\,\vec{c}-\vec{a} \,\,\,\,\,\vec{d}-\vec{a}]=0} \\\\ & (\vec{b}-\vec{a}) \cdot[(\vec{c}-\vec{a}) \times(\vec{d}-\vec{a})]=0 \\\\ & (\vec{b}-\vec{a}) \cdot(\vec{c} \times \vec{d}-\vec{c} \times \vec{a}-\vec{a} \times \vec{d})=0 \\\\ & {[\vec{b}\,\,\,\,\, \vec{c} \,\,\,\,\,\...	mcq	jee-main-2023-online-11th-april-evening-shift
1lgyl6v9x	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let the vectors $$\vec{u}_{1}=\hat{i}+\hat{j}+a \hat{k}, \vec{u}_{2}=\hat{i}+b \hat{j}+\hat{k}$$ and $$\vec{u}_{3}=c \hat{i}+\hat{j}+\hat{k}$$ be coplanar. If the vectors $$\vec{v}_{1}=(a+b) \hat{i}+c \hat{j}+c \hat{k}, \vec{v}_{2}=a \hat{i}+(b+c) \hat{j}+a \hat{k}$$ and $$\vec{v}_{3}=b \hat{i}+b \hat{j}+(c+a) \hat{...	[{"identifier": "A", "content": "12"}, {"identifier": "B", "content": "6"}, {"identifier": "C", "content": "0"}, {"identifier": "D", "content": "4"}]	["A"]	null	Since, $\vec{u}_1, \vec{u}_2, \vec{u}_3$ are coplanar. <br/><br/>So, $\left[\begin{array}{lll}\vec{u}_1 & \vec{u}_2 & \vec{u}_3\end{array}\right]=0$ <br/><br/>$$ \begin{aligned} & \Rightarrow\left\|\begin{array}{lll} 1 & 1 & a \\ 1 & b & 1 \\ c & 1 & 1 \end{array}\right\|=0 \\\\ & \Rightarrow 1(b-1)-1(1-c)+a(1-b c)=0 \\\...	mcq	jee-main-2023-online-8th-april-evening-shift
1lh21ilhv	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let the position vectors of the points A, B, C and D be $$5 \hat{i}+5 \hat{j}+2 \lambda \hat{k}, \hat{i}+2 \hat{j}+3 \hat{k},-2 \hat{i}+\lambda \hat{j}+4 \hat{k}$$ and $$-\hat{i}+5 \hat{j}+6 \hat{k}$$. Let the set $$S=\{\lambda \in \mathbb{R}$$ : the points A, B, C and D are coplanar $$\}$$. <br/><br/>Then $$\sum_\...	[{"identifier": "A", "content": "$$\\frac{37}{2}$$"}, {"identifier": "B", "content": "25"}, {"identifier": "C", "content": "13"}, {"identifier": "D", "content": "41"}]	["D"]	null	Given, position vectors of the points $A, B, C$ and $D$ be <br/><br/>$5 \hat{\mathbf{i}}+5 \hat{\mathbf{j}}+2 \lambda \hat{\mathbf{k}}, \hat{\mathbf{i}}+2 \hat{\mathbf{j}}+3 \hat{\mathbf{k}},-2 \hat{\mathbf{i}}+\lambda \hat{\mathbf{j}}+4 \hat{\mathbf{k}}$ and $-\hat{\mathbf{i}}+5 \hat{\mathbf{j}}+6 \hat{\mathbf{k}}$ <...	mcq	jee-main-2023-online-6th-april-morning-shift
1lh2y5tet	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let the vectors $$\vec{a}, \vec{b}, \vec{c}$$ represent three coterminous edges of a parallelopiped of volume V. Then the volume of the parallelopiped, whose coterminous edges are represented by $$\vec{a}, \vec{b}+\vec{c}$$ and $$\vec{a}+2 \vec{b}+3 \vec{c}$$ is equal to :</p>	[{"identifier": "A", "content": "3 V"}, {"identifier": "B", "content": "2 V"}, {"identifier": "C", "content": "6 V"}, {"identifier": "D", "content": "V"}]	["D"]	null	Given that the volume $V$ of the parallelepiped formed by the vectors $\vec{a}$, $\vec{b}$, and $\vec{c}$ is represented by the scalar triple product $[\vec{a},\vec{b},\vec{c}]$, which is the determinant of the 3 x 3 matrix with vectors $\vec{a}$, $\vec{b}$, and $\vec{c}$ as its rows (or columns). <br/><br/>When the v...	mcq	jee-main-2023-online-6th-april-evening-shift
1lh2yfbhy	maths	vector-algebra	scalar-and-vector-triple-product	<p>The sum of all values of $$\alpha$$, for which the points whose position vectors are $$\hat{i}-2 \hat{j}+3 \hat{k}, 2 \hat{i}-3 \hat{j}+4 \hat{k},(\alpha+1) \hat{i}+2 \hat{k}$$ and $$9 \hat{i}+(\alpha-8) \hat{j}+6 \hat{k}$$ are coplanar, is equal to :</p>	[{"identifier": "A", "content": "6"}, {"identifier": "B", "content": "4"}, {"identifier": "C", "content": "$$-$$2"}, {"identifier": "D", "content": "2"}]	["D"]	null	Let $\overrightarrow{O A}=\hat{\mathbf{i}}-2 \hat{\mathbf{j}}+3 \hat{\mathbf{k}}$ <br/><br/>$$ \begin{aligned} & \overrightarrow{O B}=2 \hat{\mathbf{i}}-3 \hat{\mathbf{j}}+4 \hat{\mathbf{k}} \\\\ & \overrightarrow{O C}=(a+1) \hat{\mathbf{i}}+2 \hat{\mathbf{k}} \end{aligned} $$ <br/><br/>and $ \overrightarrow{O D}=9 \ha...	mcq	jee-main-2023-online-6th-april-evening-shift
lsbl7k96	maths	vector-algebra	scalar-and-vector-triple-product	Let $\overrightarrow{\mathrm{a}}=\hat{i}+2 \hat{j}+\hat{k}, $ <br/>$\overrightarrow{\mathrm{b}}=3(\hat{i}-\hat{j}+\hat{k})$. <br/>Let $\overrightarrow{\mathrm{c}}$ be the vector such that $\overrightarrow{\mathrm{a}} \times \overrightarrow{\mathrm{c}}=\overrightarrow{\mathrm{b}}$ and $\vec{a} \cdot \vec{c}=3$. <br/> T...	[{"identifier": "A", "content": "32"}, {"identifier": "B", "content": "36"}, {"identifier": "C", "content": "24"}, {"identifier": "D", "content": "20"}]	["C"]	null	<p>$$\begin{aligned} & \vec{a} \cdot[(\vec{c} \times \vec{b})-\vec{b}-\vec{c}] \\ & \vec{a} \cdot(\vec{c} \times \vec{b})-\vec{a} \cdot \vec{b}-\vec{a} \cdot \vec{c} \quad \text{..... (i)} \end{aligned}$$</p> <p>$$\begin{aligned} & \text { given } \vec{a} \times \vec{c}=\vec{b} \\ & \Rightarrow(\vec{a} \times \vec{c}) ...	mcq	jee-main-2024-online-27th-january-morning-shift
lv2er3tg	maths	vector-algebra	scalar-and-vector-triple-product	<p>Let $$\vec{a}=\hat{i}+\hat{j}+\hat{k}, \vec{b}=2 \hat{i}+4 \hat{j}-5 \hat{k}$$ and $$\vec{c}=x \hat{i}+2 \hat{j}+3 \hat{k}, x \in \mathbb{R}$$. If $$\vec{d}$$ is the unit vector in the direction of $$\vec{b}+\vec{c}$$ such that $$\vec{a} \cdot \vec{d}=1$$, then $$(\vec{a} \times \vec{b}) \cdot \vec{c}$$ is equal to<...	[{"identifier": "A", "content": "3"}, {"identifier": "B", "content": "9"}, {"identifier": "C", "content": "11"}, {"identifier": "D", "content": "6"}]	["C"]	null	<p>$$\vec{a}=\hat{i}+\hat{j}+\hat{k}, \vec{b}=2 \hat{i}+4 \hat{j}-5 \hat{k}, \vec{c}=x \hat{i}+2 \hat{j}+3 \hat{k}, x \in R$$<?p> <p>$$\text { also, } \vec{b}+\vec{c}=(x+2) \hat{i}+6 \hat{j}-2 \hat{k}$$</p> <p>$$\vec{d} \text { is the unit vector in the direction of } \vec{b}+\vec{c}$$</p> <p>$$\begin{aligned} & \|\vec{...	mcq	jee-main-2024-online-4th-april-evening-shift
ntSo8ltNI3kPao4H	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	If $$\left\| {\overrightarrow a } \right\| = 5,\left\| {\overrightarrow b } \right\| = 4,\left\| {\overrightarrow c } \right\| = 3$$ thus what will be the value of $$\left\| {\overrightarrow a .\overrightarrow b + \overrightarrow b .\overrightarrow c + \overrightarrow c .\overrightarrow a } \right\|,$$ given that $$\overrigh...	[{"identifier": "A", "content": "$$25$$"}, {"identifier": "B", "content": "$$50$$ "}, {"identifier": "C", "content": "$$-25$$"}, {"identifier": "D", "content": "$$-50$$"}]	["A"]	null	We have, $$\overrightarrow a + \overrightarrow b + \overrightarrow c = \overrightarrow 0 $$ <br><br>$$ \Rightarrow {\left( {\overrightarrow a + \overrightarrow b + \overrightarrow c } \right)^2} = 0$$ <br><br>$$ \Rightarrow {\left\| {\overrightarrow a } \right\|^2} + {\left\| {\overrightarrow b } \right\|^2} + {\left\|...	mcq	aieee-2002
LrCwfitL3Reaie1v	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	$$\overrightarrow a \,,\overrightarrow b \,,\overrightarrow c $$ are $$3$$ vectors, such that <br/><br/>$$\overrightarrow a + \overrightarrow b + \overrightarrow c = 0$$ , $$\left\| {\overrightarrow a } \right\| = 1\,\,\,\left\| {\overrightarrow b } \right\| = 2,\,\,\,\left\| {\overrightarrow c } \right\| = 3,$$, <br/><b...	[{"identifier": "A", "content": "$$1$$"}, {"identifier": "B", "content": "$$0$$"}, {"identifier": "C", "content": "$$-7$$ "}, {"identifier": "D", "content": "$$7$$"}]	["C"]	null	$$\overrightarrow a + \overrightarrow b + \overrightarrow c = 0$$ <br><br>$$ \Rightarrow \left( {\overrightarrow a + \overrightarrow b + \overrightarrow c } \right).\left( {\overrightarrow a + \overrightarrow b + \overrightarrow c } \right) = 0$$ <br><br>$${\left\| {\overrightarrow a } \right\|^2} + {\left\| {\ove...	mcq	aieee-2003
WBKKBa1dT8vFmppP	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	A particle acted on by constant forces $$4\widehat i + \widehat j - 3\widehat k$$ and $$3\widehat i + \widehat j - \widehat k$$ is displaced from the point $$\widehat i + 2\widehat j + 3\widehat k$$ to the point $$\,5\widehat i + 4\widehat j + \widehat k.$$ The total work done by the forces is :	[{"identifier": "A", "content": "$$50$$ units "}, {"identifier": "B", "content": "$$20$$ units "}, {"identifier": "C", "content": "$$30$$ units "}, {"identifier": "D", "content": "$$40$$ units "}]	["D"]	null	The work done by a force on a particle is given by the dot product of the force and the displacement vector of the particle. The displacement vector can be found by subtracting the initial position from the final position: <br/><br/> $$\mathbf{displacement} = \mathbf{final\ position} - \mathbf{initial\ position} = (5\w...	mcq	aieee-2004
3XEW0uiZJ9xlVtmR	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$\overrightarrow u ,\overrightarrow v ,\overrightarrow w $$ be such that $$\left\| {\overrightarrow u } \right\| = 1,\,\,\,\left\| {\overrightarrow v } \right\|2,\,\,\,\left\| {\overrightarrow w } \right\|3.$$ If the projection $${\overrightarrow v }$$ along $${\overrightarrow u }$$ is equal to that of $${\overrightarro...	[{"identifier": "A", "content": "$$14$$ "}, {"identifier": "B", "content": "$${\\sqrt {7} }$$"}, {"identifier": "C", "content": "$${\\sqrt {14} }$$ "}, {"identifier": "D", "content": "$$2$$"}]	["C"]	null	Projection of $$\overrightarrow v $$ along $$\overrightarrow u = {{\overrightarrow v .\overrightarrow u } \over {\left\| {\overrightarrow u } \right\|}} = {{\overrightarrow v .\overrightarrow u } \over 2}$$ <br><br>projection of $$\overrightarrow w $$ along $$\overrightarrow u = {{\overrightarrow w .\overrightarrow u ...	mcq	aieee-2004
R1ZCf7lzVetrtUe4	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	The values of a, for which the points $$A, B, C$$ with position vectors $$2\widehat i - \widehat j + \widehat k,\,\,\widehat i - 3\widehat j - 5\widehat k$$ and $$a\widehat i - 3\widehat j + \widehat k$$ respectively are the vertices of a right angled triangle with $$C = {\pi \over 2}$$ are :	[{"identifier": "A", "content": "$$2$$ and $$1$$ "}, {"identifier": "B", "content": "$$-2$$ and $$-1$$ "}, {"identifier": "C", "content": "$$-2$$ and $$1$$ "}, {"identifier": "D", "content": "$$2$$ and $$-1$$ "}]	["A"]	null	$$\overrightarrow {CA} = \left( {2 - a} \right)\widehat i + 2\widehat j;$$ <br><br>$$\overrightarrow {CB} = \left( {1 - a} \right)\widehat i - 6\widehat k$$ <br><br>$$\overrightarrow {CA} .\overrightarrow {CB} = 0$$ <br><br>$$\,\,\,\,\,\,\,\, \Rightarrow \left( {2 - a} \right)\left( {1 - a} \right) = 0$$ <br><br>$$ ...	mcq	aieee-2006
DRDbNWOhlsTgTTBc	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	If the vectors $$\overrightarrow a = \widehat i - \widehat j + 2\widehat k,\,\,\,\,\,\overrightarrow b = 2\widehat i + 4\widehat j + \widehat k\,\,\,$$ and $$\,\overrightarrow c = \lambda \widehat i + \widehat j + \mu \widehat k$$ are mutually orthogonal, then $$\,\left( {\lambda ,\mu } \right)$$ is equal to :	[{"identifier": "A", "content": "$$(2, -3)$$"}, {"identifier": "B", "content": "$$(-2, 3)$$"}, {"identifier": "C", "content": "$$(3, -2)$$"}, {"identifier": "D", "content": "$$(-3, 2)$$"}]	["D"]	null	Since, $$\overrightarrow a ,\overrightarrow b $$ and $$\overrightarrow c $$ are mutually orthogonal <br><br> $$\overrightarrow a .\overrightarrow b = 0,\,\,\overrightarrow b .\overrightarrow c = 0,\,\,\overrightarrow c .\overrightarrow a = 0$$ <br><br>$$ \Rightarrow 2\lambda + 4 + \mu = 0\,\,\,\,\,\,\,\,\,\,\,......	mcq	aieee-2010
LYE5VbPrgMavFhGX	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$\overrightarrow a $$ and $$\overrightarrow b $$ be two unit vectors. If the vectors $$\,\overrightarrow c = \widehat a + 2\widehat b$$ and $$\overrightarrow d = 5\widehat a - 4\widehat b$$ are perpendicular to each other, then the angle between $$\overrightarrow a $$ and $$\overrightarrow b $$ is :	[{"identifier": "A", "content": "$${\\pi \\over 6}$$ "}, {"identifier": "B", "content": "$${\\pi \\over 2}$$"}, {"identifier": "C", "content": "$${\\pi \\over 3}$$"}, {"identifier": "D", "content": "$${\\pi \\over 4}$$"}]	["C"]	null	Let $$\overrightarrow c = \widehat a + 2\widehat b$$ and $$\overrightarrow d = 5\widehat a - 4\widehat b$$ <br><br>Since $$\overrightarrow c $$ and $$\overrightarrow d $$ are perpendicular to each other <br><br>$$\therefore$$ $$\overrightarrow c .\overrightarrow d = 0 \Rightarrow \left( {\widehat a + 2\widehat b} \...	mcq	aieee-2012
J6fh5bJMpbtUOm1J	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$ABCD$$ be a parallelogram such that $$\overrightarrow {AB} = \overrightarrow q ,\overrightarrow {AD} = \overrightarrow p $$ and $$\angle BAD$$ be an acute angle. If $$\overrightarrow r $$ is the vector that coincide with the altitude directed from the vertex $$B$$ to the side $$AD,$$ then $$\overrightarrow r $...	[{"identifier": "A", "content": "$$\\overrightarrow r = 3\\overrightarrow q - {{3\\left( {\\overrightarrow p .\\overrightarrow q } \\right)} \\over {\\left( {\\overrightarrow p .\\overrightarrow p } \\right)}}\\overrightarrow p $$ "}, {"identifier": "B", "content": "$$\\overrightarrow r = - \\overrightarrow q + {{...	["B"]	null	Let $$ABCD$$ be a parallelogram such that <br><br>$$\overrightarrow {AB} = \overrightarrow q ,\overrightarrow {AD} = \overrightarrow p $$ and $$\angle BAD$$ be an acute angle. <br><br>We have <br><br><img class="question-image" src="https://res.cloudinary.com/dckxllbjy/image/upload/v1734263647/exam_images/vxui8byefbr...	mcq	aieee-2012
MyLIse0cRI3zW4o3T2Zji	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	In a triangle ABC, right angled at the vertex A, if the position vectors of A, B and C are respectively 3$$\widehat i$$ + $$\widehat j$$ $$-$$ $$\widehat k$$, $$-$$$$\widehat i$$ + 3$$\widehat j$$ + p$$\widehat k$$ and 5$$\widehat i$$ + q$$\widehat j$$ $$-$$ 4$$\widehat k$$, then the point (p, q) lies on a line :	[{"identifier": "A", "content": "parallel to x-axis. "}, {"identifier": "B", "content": "parallel to y-axis."}, {"identifier": "C", "content": "making an acute angle with the positive direction of x-axis."}, {"identifier": "D", "content": "making an obtuse angle with the positive direction of x-axis. "}]	["C"]	null	Given, <br><br>$$\overrightarrow A = 3\widehat i + \widehat j - \widehat k$$ <br><br>$$\overrightarrow B = - \widehat i + 3\widehat j - p\widehat k$$ <br><br>$$\overrightarrow C = 5\widehat i + 9\widehat j - 4\widehat k$$ <br><br>$$ \therefore $$   $$\overrightarrow {AB} = - 4\widehat i + 2\wideha...	mcq	jee-main-2016-online-9th-april-morning-slot
CknOj9CXeWNGkcOX	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$\overrightarrow u $$ be a vector coplanar with the vectors $$\overrightarrow a = 2\widehat i + 3\widehat j - \widehat k$$ and $$\overrightarrow b = \widehat j + \widehat k$$. If $$\overrightarrow u $$ is perpendicular to $$\overrightarrow a $$ and $$\overrightarrow u .\overrightarrow b = 24$$, then $${\left\| {...	[{"identifier": "A", "content": "336"}, {"identifier": "B", "content": "315"}, {"identifier": "C", "content": "256"}, {"identifier": "D", "content": "84"}]	["A"]	null	You should know that, when $$\overrightarrow u $$ is coplanar with $$\overrightarrow a $$ and $$\overrightarrow b $$ then we can write $$\overrightarrow u = x\overrightarrow a + y\overrightarrow b $$ <br><br>Here, $$\overrightarrow u $$ is perpendicular with $$\overrightarrow a $$ then, <br><br>$$\overrightarrow u...	mcq	jee-main-2018-offline
U1UOPS1llBEOw9OxMNW7E	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$\sqrt 3 \widehat i + \widehat j,$$ $$\widehat i + \sqrt 3 \widehat j$$ and $$\beta \widehat i + \left( {1 - \beta } \right)\widehat j$$ respectively be the position vectors of the points A, B and C with respect to the origin O. If the distance of C from the bisector of the acute angle between OA and OB is ...	[{"identifier": "A", "content": "4"}, {"identifier": "B", "content": "1"}, {"identifier": "C", "content": "2"}, {"identifier": "D", "content": "3"}]	["B"]	null	Angle bisector is x $$-$$ y = 0 <br><br>$$ \Rightarrow $$  $${{\left\| {\beta - \left( {1 - \beta } \right)} \right\|} \over {\sqrt 2 }} = {3 \over {\sqrt 2 }}$$ <br><br>$$ \Rightarrow $$  $$\left\| {2\beta - 1} \right\| = 3$$ <br><br>$$ \Rightarrow $$  $$\beta $$ = 2 or $$-$$ 1	mcq	jee-main-2019-online-11th-january-evening-slot
wXePTqL6zttwwsSMnl3rsa0w2w9jwy0f6ft	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let A (3, 0, –1), B(2, 10, 6) and C(1, 2, 1) be the vertices of a triangle and M be the midpoint of AC. If G divides BM in the ratio, 2 : 1, then cos ($$\angle $$GOA) (O being the origin) is equal to :	[{"identifier": "A", "content": "$${1 \\over {\\sqrt {15} }}$$"}, {"identifier": "B", "content": "$${1 \\over {6\\sqrt {10} }}$$"}, {"identifier": "C", "content": "$${1 \\over {\\sqrt {30} }}$$"}, {"identifier": "D", "content": "$${1 \\over {2\\sqrt {15} }}$$"}]	["A"]	null	G is the centroid of $$\Delta $$ABC<br><br> <picture><source media="(max-width: 320px)" srcset="https://res.cloudinary.com/dckxllbjy/image/upload/v1734266720/exam_images/loddnxhki4jx9azlbmpr.webp"><source media="(max-width: 500px)" srcset="https://res.cloudinary.com/dckxllbjy/image/upload/v1734265343/exam_images/jmidgr...	mcq	jee-main-2019-online-10th-april-morning-slot
5UABRSZyRW07gN53tq18hoxe66ijvww95a3	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	If a unit vector $$\overrightarrow a $$ makes angles $$\pi $$/3 with $$\widehat i$$ , $$\pi $$/ 4 with $$\widehat j$$ and $$\theta $$$$ \in $$(0, $$\pi $$) with $$\widehat k$$, then a value of $$\theta $$ is :-	[{"identifier": "A", "content": "$${{5\\pi } \\over {6}}$$"}, {"identifier": "B", "content": "$${{5\\pi } \\over {12}}$$"}, {"identifier": "C", "content": "$${{2\\pi } \\over {3}}$$"}, {"identifier": "D", "content": "$${{\\pi } \\over {4}}$$"}]	["C"]	null	A unit vector $$\overrightarrow a $$ makes angles $$\pi $$/3 with $$\widehat i$$ <br><br>$$ \therefore $$ $$\alpha $$ = $$\pi $$/3 <br><br> and $$\pi $$/ 4 with $$\widehat j$$ <br><br>$$ \therefore $$ $$\beta $$ = $$\pi $$/ 4 <br><br>and $$\theta $$$$ \in $$(0, $$\pi $$) with $$\widehat k$$ <br><br>$$ \therefore $$ $$...	mcq	jee-main-2019-online-9th-april-evening-slot
6C4xzfmrghEfZNGqxuFTE	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$\overrightarrow a = 2\widehat i + {\lambda _1}\widehat j + 3\widehat k,\,\,$$ $$\overrightarrow b = 4\widehat i + \left( {3 - {\lambda _2}} \right)\widehat j + 6\widehat k,$$ and $$\overrightarrow c = 3\widehat i + 6\widehat j + \left( {{\lambda _3} - 1} \right)\widehat k$$ be three vectors such that $$\o...	[{"identifier": "A", "content": "(1, 5, 1)"}, {"identifier": "B", "content": "(1, 3, 1)"}, {"identifier": "C", "content": "$$\\left( { - {1 \\over 2},4,0} \\right)$$"}, {"identifier": "D", "content": "$$\\left( {{1 \\over 2},4, - 2} \\right)$$"}]	["C"]	null	Given $$\overrightarrow b = 2\overrightarrow a $$ <br><br>$$ \therefore $$ $$4\widehat i + \left( {3 - {\lambda _2}} \right)\widehat j + 6\widehat k = 4\widehat i + 2{\lambda _1}\widehat j + 6\widehat k$$ <br><br>$$ \Rightarrow 3 - {\lambda _2} = 2{\lambda _1} \Rightarrow 2{\lambda _1} + {\lambda _2} = 3\,\,...(1)$$ <...	mcq	jee-main-2019-online-10th-january-morning-slot
fzUXOCvAXq7qZfRqzTtn7	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$\overrightarrow a = \widehat i + \widehat j + \sqrt 2 \widehat k,$$ $$\overrightarrow b = {b_1}\widehat i + {b_2}\widehat j + \sqrt 2 \widehat k$$, $$\overrightarrow c = 5\widehat i + \widehat j + \sqrt 2 \widehat k$$ be three vectors such that the projection vector of $$\overrightarrow b $$ on $$\o...	[{"identifier": "A", "content": "$$\\sqrt {32} $$"}, {"identifier": "B", "content": "6"}, {"identifier": "C", "content": "$$\\sqrt {22} $$"}, {"identifier": "D", "content": "4"}]	["B"]	null	Projection of $$\overrightarrow b $$ on $$\overrightarrow a $$ is $$\overrightarrow a $$ <br><br>$$ \therefore $$   $${{\overrightarrow b \cdot \overrightarrow a } \over {\left\| {\overrightarrow a } \right\|}} = \left\| {\overrightarrow a } \right\|$$ <br><br>$$ \Rightarrow $$  $${{{b_1} + {b_2} ...	mcq	jee-main-2019-online-9th-january-evening-slot
gBxihkaJRK9XmHPQAQ7k9k2k5e2n780	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	A vector $$\overrightarrow a = \alpha \widehat i + 2\widehat j + \beta \widehat k\left( {\alpha ,\beta \in R} \right)$$ lies in the plane of the vectors, $$\overrightarrow b = \widehat i + \widehat j$$ and $$\overrightarrow c = \widehat i - \widehat j + 4\widehat k$$. If $$\overrightarrow a $$ bisects the angle be...	[{"identifier": "A", "content": "$$\\overrightarrow a .\\widehat i + 3 = 0$$"}, {"identifier": "B", "content": "$$\\overrightarrow a .\\widehat k - 4 = 0$$"}, {"identifier": "C", "content": "$$\\overrightarrow a .\\widehat i + 1 = 0$$"}, {"identifier": "D", "content": "$$\\overrightarrow a .\\widehat k + 2 = 0$$"}]	["B"]	null	Angle bisector $$\overrightarrow a = \lambda \left( {\widehat b + \widehat c} \right)$$ <br><br>= $$\lambda \left( {{{\widehat i + \widehat j} \over {\sqrt 2 }} + {{\widehat i - \widehat j + 4\widehat k} \over {3\sqrt 2 }}} \right)$$ <br><br>$$ \Rightarrow $$ $$\overrightarrow a = {\lambda \over {3\sqrt 2 }}\left( {...	mcq	jee-main-2020-online-7th-january-morning-slot
wxnynWl5nmUW9g7btjjgy2xukewt1roa	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$\overrightarrow a $$, $$\overrightarrow b $$ and $$\overrightarrow c $$ be three unit vectors such that <br/>$${\left\| {\overrightarrow a - \overrightarrow b } \right\|^2}$$ + $${\left\| {\overrightarrow a - \overrightarrow c } \right\|^2}$$ = 8. <br/><br/>Then $${\left\| {\overrightarrow a + 2\overrightarrow b } ...	[]	null	2	Given, $$\left\| {\overrightarrow a } \right\| = \left\| {\overrightarrow b } \right\| = \left\| {\overrightarrow c } \right\| = 1$$ <br><br>$${\left\| {\overrightarrow a - \overrightarrow b } \right\|^2}$$ + $${\left\| {\overrightarrow a - \overrightarrow c } \right\|^2}$$ = 8 <br><br>$$ \Rightarrow $$ $${\left\| {\overrightar...	integer	jee-main-2020-online-2nd-september-morning-slot
qU27zRsydVCHN6lGyOjgy2xukf3zyzqz	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let a, b c $$ \in $$ R be such that a<sup>2</sup> + b<sup>2</sup> + c<sup>2</sup> = 1. If <br/>$$a\cos \theta = b\cos \left( {\theta + {{2\pi } \over 3}} \right) = c\cos \left( {\theta + {{4\pi } \over 3}} \right)$$, <br/>where $${\theta = {\pi \over 9}}$$, then the angle between the vectors $$a\widehat i + b\w...	[{"identifier": "A", "content": "0"}, {"identifier": "B", "content": "$${{\\pi \\over 9}}$$"}, {"identifier": "C", "content": "$${{{2\\pi } \\over 3}}$$"}, {"identifier": "D", "content": "$${{\\pi \\over 2}}$$"}]	["D"]	null	Let, $$\overrightarrow {{a_1}} = a\widehat i + b\widehat j + c\widehat k$$<br><br>and $$\overrightarrow {{a_2}} = b\widehat i + c\widehat j + a\widehat k$$<br><br>We know, Angle between two vectors<br><br>$$\cos \alpha = {{\overrightarrow {{a_1}} \,.\,\overrightarrow {{a_2}} } \over {\|\overrightarrow {{a_1}} \,\|.\|\,...	mcq	jee-main-2020-online-3rd-september-evening-slot
IjCSOdBC2AtfLTHw6Cjgy2xukfqgbdp5	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let the vectors $$\overrightarrow a $$, $$\overrightarrow b $$, $$\overrightarrow c $$ be such that <br/>$$\left\| {\overrightarrow a } \right\| = 2$$, $$\left\| {\overrightarrow b } \right\| = 4$$ and $$\left\| {\overrightarrow c } \right\| = 4$$. If the projection of <br/>$$\overrightarrow b $$ on $$\overrightarrow a $$...	[]	null	6	Projection of $$\overrightarrow b $$ on $$\overrightarrow a $$ = Projection of $$\overrightarrow c $$ on $$\overrightarrow a $$ <br><br>$$ \Rightarrow $$ $${{\overrightarrow b .\overrightarrow a } \over {\left\| {\overrightarrow a } \right\|}} = {{\overrightarrow c .\overrightarrow a } \over {\left\| {\overrightarrow a ...	integer	jee-main-2020-online-5th-september-evening-slot
oBUoyZ4YjQ6r5Z8sqVjgy2xukg4n5m60	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	If $$\overrightarrow x $$ and $$\overrightarrow y $$ be two non-zero vectors such that $$\left\| {\overrightarrow x + \overrightarrow y } \right\| = \left\| {\overrightarrow x } \right\|$$ and $${2\overrightarrow x + \lambda \overrightarrow y }$$ is perpendicular to $${\overrightarrow y }$$, then the value of $$\lambda $...	[]	null	1	$$\left\| {\overrightarrow x + \overrightarrow y } \right\| = \left\| {\overrightarrow x } \right\|$$ <br>Squaring both sides we get <br><br>$${\left\| {\overrightarrow x } \right\|^2} + 2\overrightarrow x .\overrightarrow y + {\left\| {\overrightarrow y } \right\|^2} = {\left\| {\overrightarrow x } \right\|^2}$$ <br><br>$$ \R...	integer	jee-main-2020-online-6th-september-evening-slot
hnJwMJTUDbFeYVoTKR1kmknwag0	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$\overrightarrow x $$ be a vector in the plane containing vectors $$\overrightarrow a = 2\widehat i - \widehat j + \widehat k$$ and $$\overrightarrow b = \widehat i + 2\widehat j - \widehat k$$. If the vector $$\overrightarrow x $$ is perpendicular to $$\left( {3\widehat i + 2\widehat j - \widehat k} \right)$$ a...	[]	null	486	Let, $$\overrightarrow x = k(\overrightarrow a + \lambda \overrightarrow b )$$<br><br>$$\overrightarrow x$$ is perpendicular to $$3\widehat i + 2\widehat j - \widehat k$$<br><br><b>I.</b> k{(2 + $$\lambda$$)3 + (2$$\lambda$$ $$-$$ 1)2 + (1 $$-$$ $$\lambda$$)($$-$$1) = 0<br><br>$$ \Rightarrow $$ 8$$\lambda$$ + 3 = 0<...	integer	jee-main-2021-online-17th-march-evening-shift
uSK38CUUVnLZXt4bdl1kmm3d8s3	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	In a triangle ABC, if $$\|\overrightarrow {BC} \| = 8,\|\overrightarrow {CA} \| = 7,\|\overrightarrow {AB} \| = 10$$, then the projection of the vector $$\overrightarrow {AB} $$ on $$\overrightarrow {AC} $$ is equal to :	[{"identifier": "A", "content": "$${{25} \\over 4}$$"}, {"identifier": "B", "content": "$${{127} \\over 20}$$"}, {"identifier": "C", "content": "$${{85} \\over 14}$$"}, {"identifier": "D", "content": "$${{115} \\over 16}$$"}]	["C"]	null	<picture><source media="(max-width: 1728px)" srcset="https://res.cloudinary.com/dckxllbjy/image/upload/v1734266979/exam_images/tvnba426ygdio3l2ckwo.webp"><source media="(max-width: 320px)" srcset="https://res.cloudinary.com/dckxllbjy/image/upload/v1734264573/exam_images/vlfqrjsuvhpnf9m6eq5m.webp"><source media="(max-wi...	mcq	jee-main-2021-online-18th-march-evening-shift
1krq02yea	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$\overrightarrow a $$, $$\overrightarrow b $$, $$\overrightarrow c $$ be three mutually perpendicular vectors of the same magnitude and equally inclined at an angle $$\theta$$, with the vector $$\overrightarrow a $$ + $$\overrightarrow b $$ + $$\overrightarrow c $$. Then 36cos<sup>2</sup>2$$\theta$$ is equal to __...	[]	null	4	$${\left\| {\overrightarrow a + \overrightarrow b + \overrightarrow c } \right\|^2} = {\left\| {\overrightarrow a } \right\|^2} + {\left\| {\overrightarrow b } \right\|^2} + {\left\| {\overrightarrow c } \right\|^2} + 2(\overrightarrow a \,.\,\overrightarrow b + \overrightarrow a \,.\,\overrightarrow c + \overrightarrow b ...	integer	jee-main-2021-online-20th-july-morning-shift
1krrv1lee	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	In a triangle ABC, if $$\left\| {\overrightarrow {BC} } \right\| = 3$$, $$\left\| {\overrightarrow {CA} } \right\| = 5$$ and $$\left\| {\overrightarrow {BA} } \right\| = 7$$, then the projection of the vector $$\overrightarrow {BA} $$ on $$\overrightarrow {BC} $$ is equal to :	[{"identifier": "A", "content": "$${{19} \\over 2}$$"}, {"identifier": "B", "content": "$${{13} \\over 2}$$"}, {"identifier": "C", "content": "$${{11} \\over 2}$$"}, {"identifier": "D", "content": "$${{15} \\over 2}$$"}]	["C"]	null	<img src="https://res.cloudinary.com/dckxllbjy/image/upload/v1734264070/exam_images/ep6a24u2iigywhjyduzo.webp" style="max-width: 100%;height: auto;display: block;margin: 0 auto;" loading="lazy" alt="JEE Main 2021 (Online) 20th July Evening Shift Mathematics - Vector Algebra Question 131 English Explanation"> <br><br>Pr...	mcq	jee-main-2021-online-20th-july-evening-shift
1krrw91t0	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	For p > 0, a vector $${\overrightarrow v _2} = 2\widehat i + (p + 1)\widehat j$$ is obtained by rotating the vector $${\overrightarrow v _1} = \sqrt 3 p\widehat i + \widehat j$$ by an angle $$\theta$$ about origin in counter clockwise direction. If $$\tan \theta = {{\left( {\alpha \sqrt 3 - 2} \right)} \over {\lef...	[]	null	6	<picture><source media="(max-width: 320px)" srcset="https://res.cloudinary.com/dckxllbjy/image/upload/v1734265929/exam_images/pfsd2oapdy3p6fqplgh1.webp"><source media="(max-width: 500px)" srcset="https://res.cloudinary.com/dckxllbjy/image/upload/v1734264150/exam_images/yosxjcnh7ins9tydvyvk.webp"><img src="https://res.c...	integer	jee-main-2021-online-20th-july-evening-shift
1krzrafms	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	If $$\left( {\overrightarrow a + 3\overrightarrow b } \right)$$ is perpendicular to $$\left( {7\overrightarrow a - 5\overrightarrow b } \right)$$ and $$\left( {\overrightarrow a - 4\overrightarrow b } \right)$$ is perpendicular to $$\left( {7\overrightarrow a - 2\overrightarrow b } \right)$$, then the angle between...	[]	null	60	$$\left( {\overrightarrow a + 3\overrightarrow b } \right) \bot \left( {7\overrightarrow a - 5\overrightarrow b } \right)$$<br><br>$$ \therefore $$ $$\left( {\overrightarrow a + 3\overrightarrow b } \right)\,.\,\left( {7\overrightarrow a - 5\overrightarrow b } \right) = 0$$<br><br>$$ \Rightarrow $$ $$7{\left\| {\ove...	integer	jee-main-2021-online-25th-july-evening-shift
1ktd1se61	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	A hall has a square floor of dimension 10 m $$\times$$ 10 m (see the figure) and vertical walls. If the angle GPH between the diagonals AG and BH is $${\cos ^{ - 1}}{1 \over 5}$$, then the height of the hall (in meters) is :<br/><br/><img src="data:image/png;base64,UklGRkQOAABXRUJQVlA4IDgOAADwVwCdASocARIBPm00l0ekIyKhJX...	[{"identifier": "A", "content": "5"}, {"identifier": "B", "content": "2$$\\sqrt {10} $$"}, {"identifier": "C", "content": "5$$\\sqrt {3} $$"}, {"identifier": "D", "content": "5$$\\sqrt {2} $$"}]	["D"]	null	$$A(\widehat j)\,.\,B(10\widehat i)$$<br><br>$$H(h\widehat j + 10\widehat k)$$<br><br>$$G(10\widehat i + h\widehat j + 10\widehat k)$$<br><br>$$\overrightarrow {AG} = 10\widehat i + h\widehat j + 10\widehat k$$<br><br>$$\overrightarrow {BH} = - 10\widehat i + h\widehat j + 10\widehat k$$<br><br>$$\cos \theta = {{\o...	mcq	jee-main-2021-online-26th-august-evening-shift
1ktd3i9x4	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	If the projection of the vector $$\widehat i + 2\widehat j + \widehat k$$ on the sum of the two vectors $$2\widehat i + 4\widehat j - 5\widehat k$$ and $$ - \lambda \widehat i + 2\widehat j + 3\widehat k$$ is 1, then $$\lambda$$ is equal to __________.	[]	null	5	$$\overrightarrow a = \widehat i + 2\widehat j + \widehat k$$<br><br>$$\overrightarrow b = (2 - \lambda )\widehat i + 6\widehat j - 2\widehat k$$<br><br>$${{\overrightarrow a \,.\,\overrightarrow b } \over {\|\overrightarrow b \|}} = 1,\overrightarrow a \,.\,\overrightarrow b = 12 - \lambda $$<br><br>$$\left( {\overri...	integer	jee-main-2021-online-26th-august-evening-shift
1ktip5iva	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	Let $$\overrightarrow a $$ and $$\overrightarrow b $$ be two vectors <br/>such that $$\left\| {2\overrightarrow a + 3\overrightarrow b } \right\| = \left\| {3\overrightarrow a + \overrightarrow b } \right\|$$ and the angle between $$\overrightarrow a $$ and $$\overrightarrow b $$ is 60$$^\circ$$. If $${1 \over 8}\overrig...	[{"identifier": "A", "content": "4"}, {"identifier": "B", "content": "6"}, {"identifier": "C", "content": "5"}, {"identifier": "D", "content": "8"}]	["C"]	null	$${\left\| {3\overrightarrow a + \overrightarrow b } \right\|^2} = {\left\| {2\overrightarrow a + 3\overrightarrow b } \right\|^2}$$<br><br>$$\left( {3\overrightarrow a + \overrightarrow b } \right).\left( {3\overrightarrow a + \overrightarrow b } \right) = \left( {2\overrightarrow a + 3\overrightarrow b } \right).\le...	mcq	jee-main-2021-online-31st-august-morning-shift
1l5ainfwa	maths	vector-algebra	scalar-or-dot-product-of-two-vectors-and-its-applications	<p>Let $$\overrightarrow a = {a_1}\widehat i + {a_2}\widehat j + {a_3}\widehat k$$ $${a_i} > 0$$, $$i = 1,2,3$$ be a vector which makes equal angles with the coordinate axes OX, OY and OZ. Also, let the projection of $$\overrightarrow a $$ on the vector $$3\widehat i + 4\widehat j$$ be 7. Let $$\overrightarrow b $$...	[{"identifier": "A", "content": "$$\\sqrt 7 $$"}, {"identifier": "B", "content": "$$\\sqrt 2 $$"}, {"identifier": "C", "content": "2"}, {"identifier": "D", "content": "7"}]	["B"]	null	<p>$${\cos ^2}\alpha + {\cos ^2}\beta + {\cos ^2}\gamma = 1 \Rightarrow {\cos ^2}\alpha = {1 \over 3} \Rightarrow \cos \alpha = {1 \over {\sqrt 3 }}$$</p> <p>$$\overrightarrow a = {\lambda \over 3}(\widehat i + \widehat j + \widehat k),\,\lambda > 0$$</p> <p>$${\lambda \over {\sqrt 3 }}{{(\widehat i + \widehat...	mcq	jee-main-2022-online-25th-june-morning-shift

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