Question:

Find the value of $\dfrac{dy}{dx}$ at $\theta = \dfrac{\pi}{4}$ , if $x = ae^{\theta}(\sin \theta - \cos \theta)$ and $y = ae^{\theta}(\sin \theta + \cos \theta)$ . …….. [CBSC 2008, 2014]

Solution:

Given, $x = ae^{\theta}(\sin \theta - \cos \theta)$ and $y = ae^{\theta}(\sin \theta + \cos \theta)$

Taking, $x = ae^{\theta}(\sin \theta - \cos \theta)$

Differentiating with respect to θ, we get

$\dfrac{dx}{d\theta} = ae^{\theta}(\cos \theta + \sin \theta)+a(\sin \theta - \cos \theta).e^{\theta}$

$= ae^{\theta}(\cos \theta + \sin \theta +\sin \theta - \cos \theta)$

$= 2ae^{\theta} \sin \theta}$

Again taking, $y = ae^{\theta}(\sin \theta + \cos \theta)$

Differentiating with respect to θ, we get

$\dfrac{dy}{d\theta}=ae^{\theta}(\cos \theta - \sin \theta)+a(\sin \theta + \cos \theta).e^{\theta}$

$=ae^{\theta}(\cos \theta - \sin \theta + \sin \theta + \cos \theta)$

$= 2ae^{\theta} \cos \theta$

$\therefore \dfrac{dy}{dx}= \dfrac{dy/d\theta}{dx/d\theta}$

$=\dfrac{2ae^{\theta} \cos \theta}{2ae^{\theta} \cos \theta}$

$\Rightarrow \dfrac{dy}{dx}= \cot \theta$

$\Rightarrow \left[\dfrac{dy}{dx}\right]_{\theta = \frac{\pi}{4}} = \cot \frac{\pi}{4} = 1$

Some other question:

Q 1: If $\tan^{-1}(\frac{y}{x}) = \log \sqrt{x^2+y^2}$ , Prove that $\dfrac{dy}{dx} = \dfrac{x + y}{x - y}$ . ……..[CBSC 2020]

Solution : For solution click here

Q 2: If $y^x = e^{y-x}$ , then prove that $\dfrac{dy}{dx}=\dfrac{(1+\log y)^2}{\log y}$ …….[CBSC 2013]

Solution: For solution click here

Q 3:If $\cos y = x \cos(a + y)$ , with $\cos a \neq \pm 1$ , then prove that $\dfrac{dy}{dx}=\dfrac{\cos^2(a + y)}{\sin a}$ . Hence show that $\sin a \dfrac{d^2y}{dx^2}+ \sin 2(a + y) \dfrac{dy}{dx}=0$ . …….. [CBSC 2016]

Solution: For solution click here

Find the value of dy/dx at θ = pi/4, if x = aeθ(sin θ – cos θ)

Question:

Solution:

Some other question:

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