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Differential Equations

Multiple Choice Questions

241.

The general solution of the differential equation $\frac{dy}{dx} + \frac{1 + \cos (2 y)}{1 - \cos (2 y)} = 0$ is given by

$\tan (y) + \cot (x) = c$
$\tan (y) - \cot (x) = c$
$\tan (x) - \cot (y) = c$
$\tan (x) + \cot (y) = c$

242.

The degree of the differential equation ${(1 + {(\frac{dy}{dx})}^{2})}^{\frac{3}{4}} = {(\frac{d^{2} y}{{dx}^{2}})}^{\frac{1}{3}}$ is

243.
The differential equation for which sin^-1(x) + sin^-1(y) = c is given by

$\sqrt{1 - x^{2}} dy + \sqrt{1 - y^{2}} dx = 0$

$\sqrt{1 - x^{2}} dx + \sqrt{1 - y^{2}} dy = 0$

$\sqrt{1 - x^{2}} dx - \sqrt{1 - y^{2}} dy = 0$

$\sqrt{1 - x^{2}} dy - \sqrt{1 - y^{2}} dx = 0$

$\sqrt{1 - x^{2}} dy + \sqrt{1 - y^{2}} dx = 0$

$Here, we have \sin^{- 1} (x) + \sin^{- 1} (y) = c Differentiating both sides, we get \frac{dx}{\sqrt{1 - x^{2}}} + \frac{dy}{\sqrt{1 - y^{2}}} = 0 \Rightarrow \frac{\sqrt{1 - y^{2}} dx + \sqrt{1 - x^{2}} dy}{\sqrt{1 - x^{2}} - \sqrt{1 - y^{2}}} = 0 \Rightarrow \sqrt{1 - x^{2}} dy + \sqrt{1 - y^{2}} dx = 0$

244.

The differential of $e^{x^{3}}$ with respect to log(x) is

$e^{x^{3}}$
$3 x^{2} e^{x^{3}} + 3 x^{2}$
$3 x^{2} e^{x^{3}}$
$3 x^{3} e^{x^{3}}$

245.

Which of the following functions is a solution of the differential equation ?

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

y = 2x - 4
y = 2x² - 4
y = 2
y = 2x

246.

y = ae^mx + be^{- mx}satisfies which of the following differential equations

$\frac{dy}{dx} + my = 0$
$\frac{dy}{dx} - my = 0$
$\frac{d^{2} y}{{dx}^{2}} - m^{2} y = 0$
$\frac{d^{2} y}{{dx}^{2}} + m^{2} y = 0$

247.

Solution of the differential equation $\frac{dx}{x} + \frac{dy}{y} = 0$ is

$\frac{1}{x} + \frac{1}{y} = c$
log(x)log(y) = c
xy = c
x + y = c

248.

The differential equation representing a family of circles touchmg the Y-axis at the origin is

$x^{2} + y^{2} - 2 xy \frac{dy}{dx} = 0$
$x^{2} + y^{2} + 2 xy \frac{dy}{dx} = 0$
$x^{2} - y^{2} - 2 xy \frac{dy}{dx} = 0$
$x^{2} - y^{2} + 2 xy \frac{dy}{dx} = 0$

249.

The general solution of the differential equation (2x - y + 1)dx + (2y - x + 1) dy = 0 is

x²+ y² + xy - x + y = c
x²+ y² - xy + x + y = c
x² - y² + xy - x + y = c
x² - y² - xy + x + y = c

250.

The solution of the differential equation e^-x(y + 1)dy + (cos²(x) + sin(2x))y dx = 0 subjected to the condition that y = 1 when x = 0 is

y + log(y) + e^xcos²(x) = 2
log(y + 1) + e^xcos²(x) = 1
y + log(y) = e^xcos²(x)
(y + 1) + e^xcos²(x) = 2

Previous Year Papers

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Multiple Choice Questions

243. The differential equation for which sin-1(x) + sin-1(y) = c is given by 1 - x2dy + 1 - y2dx = 0 1 - x2dx + 1 - y2dy = 0 1 - x2dx - 1 - y2dy = 0 1 - x2dy - 1 - y2dx = 0

243.
The differential equation for which sin^-1(x) + sin^-1(y) = c is given by

$\sqrt{1 - x^{2}} dy + \sqrt{1 - y^{2}} dx = 0$

$\sqrt{1 - x^{2}} dx + \sqrt{1 - y^{2}} dy = 0$

$\sqrt{1 - x^{2}} dx - \sqrt{1 - y^{2}} dy = 0$

$\sqrt{1 - x^{2}} dy - \sqrt{1 - y^{2}} dx = 0$