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Differential Equations

Multiple Choice Questions

161.

The solution of $\frac{dy}{dx}$ + y tan(x) = sec(x) is :

$ysec (x) = \tan (x) + c$
$ytan (x) = \sec (x) + c$
$\tan (x) = ytan (x) + c$
$xsec (x) = \tan (y) + c$

162.

The solution of $\frac{dy}{dx} = \frac{ax + h}{by + k}$ represents a parabola, when :

a = 0, b = 0
a = 1, b = 2
a = 0, b $\neq$ 0
a = 2, b = 1

163.

An integrating factor of the differential equation $x \frac{dy}{dx} + ylog (x) = {xe}^{x} x^{\frac{1}{2} \log (x)}$ , (x > 0) is :

x^log(x)
${(\sqrt{x})}^{\log (x)}$
${(\sqrt{e})}^{{(\log (x))}^{2}}$
$e^{x^{2}}$

164.

The solution of $e^{\frac{dy}{dx}} = (x + 1)$ , y(0) = 3 is :

y = xlog(x) - x + 2
y = (x + 1) $\log |x + 1| - x + 3$
$y = (x + 1) \log |x + 1| + x + 3$
y = $xlog (x) + x + 3$

165.

Solution of the differential equation $\frac{dy}{dx} \tan (y) = \sin (x + y) + \sin (x - y)$ is :

$\sec (y) + 2 \cos (x) = c$
$\sec (y) - 2 \cos (x) = c$
$\cos (y) - 2 \sin (x) = c$
$\tan (y) - 2 \sec (y) = c$

166.
Solution of the differential equation $\frac{dy}{dx} + \frac{y}{x} = \sin (x)$ is :

$x (y + \cos (x)) = \sin (x) + c$

$x (y - \cos (x)) = \sin (x) + c$

$x (ycos (x)) = \sin (x) + c$

$x (y - \cos (x)) = \cos (x) + c$

$x (y + \cos (x)) = \sin (x) + c$

$∵ \frac{dy}{dx} + \frac{y}{x} = \sin (x) Here, P = \frac{1}{x} and Q = \sin (x) ∴ IF = e^{\int Pdx} = e^{\int \frac{1}{x} dx} = x y (IF) = \int Q (IF) dx + c \Rightarrow y . x = \int xsin (x) dx + c \Rightarrow xy = - xcos (x) + \sin (x) + c \Rightarrow x (y + \cos (x)) = \sin (x) + c$