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Test: Second Order Derivatives - JEE MCQ


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10 Questions MCQ Test - Test: Second Order Derivatives

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Test: Second Order Derivatives - Question 1

If y = tan-1 x, then   in terms of y

Detailed Solution for Test: Second Order Derivatives - Question 1

y = tan-1 x
=> tan y = tan(tan-1 x)
x = tan y
sec2 y dy/dx = 1
=> 1/(cos2y) dy/dx = 1
dy/dx = cos2y
Differentiate it with respect to x
d2y/dx2 = 2cos y(-sin y)(dy/dx)..................(1)
Put the value of dy/dx in eq(1)
=> d2y/dx2 = 2cos y(-sin y)(cos2 y)
=> d2y/dx2 = 2cos3 y siny

Test: Second Order Derivatives - Question 2

Detailed Solution for Test: Second Order Derivatives - Question 2

xa yb = (x−y)a+b
taking log both the sides.
log(xa yb)=log(x−y)(a+b)
alogx+blogy=(a+b)log(x−y)
differentiating both sides w.r.t 'x'.
(a/x+b/y)dy/dx = (a+b)/(x−y)[1−dy/dx]
dy/dx[b/y+(a+b)/(x−y)] = (a+b)/(x−y) − a/x
dy/dx[(bx−by+ay+by)/y(x−y)] = (ax+bx−ax+ay)/x(x−y)
dy/dx[(bx+ay)/y]=(bx+ay)/x
dy/dx = y/x

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Test: Second Order Derivatives - Question 3

If f(x) = x + cot x, 

Detailed Solution for Test: Second Order Derivatives - Question 3

 f(x) = x + cot x
f’(x) = 1 + (-cosec2 x)
f”(x) = 0 - 2cosec x(-cosec x cot x)
= 2 cosec2 x cot x
f”(π/4) = 2 cosec2 (π/4) cot(π/4)
= 2 [(2)^½]2 (1)
= 4

Test: Second Order Derivatives - Question 4

The general solution of

is

Detailed Solution for Test: Second Order Derivatives - Question 4

The operator form of given equation is (x2D2 – 5xD + 9)y = 0 ...(*)
Let x = et ⇒ t = log x D′ ≡ d / dt
D ≡ d / dt
We have x2D2 = D′(D′ – 1) 
xD = D′ 
[D′(D′ – 1) – 5D′ + 9]y = 0 
The A.E. is m2 – 6m + 9 = 0 
(m – 3)2 = 0, m = 3, 3 
The C.F. is y = (c1 + c2t)e3t 
The solution of (*) is 
y = (c1 + c2 log x) x3.

Test: Second Order Derivatives - Question 5

Differentiate 

Test: Second Order Derivatives - Question 6

If ey(x+5) = 1, then evaluate 

Detailed Solution for Test: Second Order Derivatives - Question 6

ey =1/ (x+5)
Taking log both side we get
log ey = log {1/(5+x)}
then, y = log {1/(5+x)}
Differentiating both side ,
dy/dx =( x+5) . {-1/(5+x)²}
dy/dx = -1/(5+x) ……..( 1)
Again Differentiating, d²y/dx²= 1/(5+x)²
d²y/dx²= {-1/(5+x)}²
From equation (1)
d²y/dx² = {dy/dx}²

Test: Second Order Derivatives - Question 7

Find  from x = 2at2, y = at4

Detailed Solution for Test: Second Order Derivatives - Question 7

y = at4,     x = 2at2
dy/dt = 4at3        dx/dt = 4at    => dt/dx = 1/4at
Divide dy/dt by dx/dt, we get
dy/dx = t2
d2 y/dx2 = 2t dt/dx……………….(1)
Put the value of dt/dx in eq(1)
d2 y /dx2 = 2t(1/4at)
= 1/2a

Test: Second Order Derivatives - Question 8

The differential coefficient of tan-1 (log x) with respect to x is : 

Test: Second Order Derivatives - Question 9

Test: Second Order Derivatives - Question 10

Find the second derivative of excosx​

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