Download App

STD 12 - 7.1 inderfinite integral — Mathematics STD 12 Science — Question

CBSE BoardEnglish MediumSTD 12 ScienceMathematicsSTD 12 - 7.1 inderfinite integral1 Mark
MCQ
$\int_{}^{} {{{\sin }^3}x\;.\;\cos x\;dx = } $
  • A
    $\frac{{{{\sin }^4}x{{\cos }^2}x}}{8} + c$
  • $\frac{{{{\sin }^4}x}}{4} + c$
  • C
    $\frac{{{{\sin }^2}x}}{2} + c$
  • D
    $4{\sin ^4}x + c$

Answer

Correct option: B.
$\frac{{{{\sin }^4}x}}{4} + c$
b
(b)$\int_{}^{} {{{\sin }^3}x\,.\,\cos x\,dx} $. Put $\sin x = t,$ then
$\cos x\,dx = dt$; $\int_{}^{} {{t^3}dt} = \frac{{{t^4}}}{4} = \frac{{{{\sin }^4}x}}{4} + c$.

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "M.C.Q (1 Marks)" from STD 12 - 7.1 inderfinite integralSTD 12 - 7.1 inderfinite integral — all question typesMathematics STD 12 Science question papersCBSE Board STD 12 Science question papersCBSE Board question paper generator

Similar questions

The value of $\left| {\,\begin{array}{*{20}{c}}1&{\cos (\beta - \alpha )}&{\cos (\gamma - \alpha )}\\{\cos (\alpha - \beta )}&1&{\cos (\gamma - \beta )}\\{\cos (\alpha - \gamma )}&{\cos (\beta - \gamma )}&1\end{array}} \right|$ is
Moving along the $ x-$ axis are two points with $x = 10 + 6t; \, x = 3 + {t^2}.$ The speed with which they are reaching from each other at the time of encounter is ........... $cm/sec$. ( $x$  is in $cm$ and $t$ is in seconds)
The volume of a sphere is increasing at the rate of $4\pi\text{cm}^{3}/\text{sec}$. The rate of increase of the radius when the volume is $288\pi\text{cm}^{3}/\text{sec}$ is:
The maximum slope of the curve $y=\frac{1}{2} x^{4}-5 x^{3}+18 x^{2}-19 x$ occurs at the point
Let $A , B , C$ be $3 \times 3$ matrices such that $A$ is symmetric and $B$ and $C$ are skew-symmetric.Consider the statements

$(S1): A ^{13} B ^{26}- B ^{26} A ^{13}$ is symmetric

$(S2):A ^{26} C ^{13}- C ^{13} A ^{26}$ is symmetric

Then,

$\int(\text{x}-1)\text{e}^{-\text{x}}\text{ dx}$ is equal to:
The point at the curve $y=12 x-x^2$  where the slope of the tangent is zero will be:
The distance between the planes $2x + 2y - z +2 = 0$ and $4x + 4y - 2z + 5 = 0$ is :
If $p$ and $ q$ are positive real numbers such that ${p^2} + {q^2} = 1$ then , the maximum value of $(p+q)$ is
The value of $p$, so that the lines $\frac{1-x}{3}=\frac{7 y-14}{2 p}$ $=\frac{z-3}{2}$ and $\frac{7-7 x}{3 p}=\frac{y-5}{1}=\frac{6-z}{5}$ intersect at right angle, is