Download App

STD 12 - 9. differential equations — Mathematics STD 12 Science — Question

CBSE BoardEnglish MediumSTD 12 ScienceMathematicsSTD 12 - 9. differential equations1 Mark
MCQ
If $x = \sin t$, $y = \cos pt$, then
  • A
    $(1 - {x^2}){y_2} + x{y_1} + {p^2}y = 0$
  • B
    $(1 - {x^2}){y_2} + x{y_1} - {p^2}y = 0$
  • C
    $(1 + {x^2}){y_2} - x{y_1} + {p^2}y = 0$
  • $(1 - {x^2}){y_2} - x{y_1} + {p^2}y = 0$

Answer

Correct option: D.
$(1 - {x^2}){y_2} - x{y_1} + {p^2}y = 0$
d
(d) $x = \sin t$, $y = \cos pt$

$\frac{{dx}}{{dt}} = \cos t$; $\frac{{dy}}{{dt}} = - p\sin pt$; $\frac{{dy}}{{dx}} = \frac{{ - p\sin pt}}{{\cos t}}$

$\frac{{{d^2}y}}{{d{x^2}}} = \frac{{ - \cos t\,{p^2}\cos pt(dt/dx) - p\sin pt\sin t(dt/dx)}}{{{{\cos }^2}t}}$

==> $(1 - {x^2})\frac{{{d^2}y}}{{d{x^2}}} - x\frac{{dy}}{{dx}} + {p^2}y = 0$

or $(1 - {x^2}){y_2} - x{y_1} + {p^2}y = 0$.

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 - 9. differential equationsSTD 12 - 9. differential equations — all question typesMathematics STD 12 Science question papersCBSE Board STD 12 Science question papersCBSE Board question paper generator

Similar questions

$\int\frac{\text{dx}}{1-\cos\text{x}-\sin\text{x}}$ is equal to:
What are the direction ratios of the line if it passes through the intersection of the planes x = 3z + 4 and y = 2z - 3:
$\int\frac{1}{1+\tan\text{x}}\text{ dx}=$
Let $D$ be the domain of the function $f(x)=\sin ^{-1}$ $\left(\log _{3 x}\left(\frac{6+2 \log _3 x}{-5 x}\right)\right)$. If the range of the function $g: D \rightarrow R$ defined by $g( x )= x -[ x ],([ x ]$ is the greatest integer function), is ( $\alpha, \beta)$, then $\alpha^2+\frac{5}{\beta}$ is equal to
Let $[x]$ denote the largest integer not exceeding $x$ and $\{x\}=x-[x]$. Then, $\int \limits_0^{2012} \frac{e^{\cos (\pi\{x\})}}{e^{\cos (\pi\{x\})}+e^{-\cos (\pi\{x\})}} d x$ is equal to
If $P(A)=\frac{3}{10}, P(B)=\frac{2}{5}$ and $P(A \cup B)=\frac{3}{5}$, then $P(B / A)+P(A / B)$ equals
Corner points of the bounded feasible region for an $ LP$ problem are $A(0, 5)\ B(0, 3)\ C(1, 0)\ D(6, 0).$ Let $z = -50x + 20y$ be the objective function. Minimum value of $z$ occurs at $.......$ center point.
$\int_{}^{} {{{\sec }^p}x\tan x\;dx = } $
If $f(x) = \sin x - {x \over 2}$ is increasing function, then
Let $3\sin(\text{xy})+4\cos(\text{xy})=5,$ then $\frac{\text{dy}}{\text{dx}}=$