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Question
Let S be the set of all points where the function f(x)=|x−π|(e|x|−1)sin|x| is not differentiable, then S is
Let S be the set of all points where the function f(x)=|x−π|(e|x|−1)sin|x| is not differentiable, then S is
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Solution
The correct option is D ϕ
f(x)=|x−π|(e|x|−1)sin|x|
critical points x=0,π
At x=0
for LHD
f(x)=−(x−π)(e−x−1)sin(−x) =(x−π)(e−x−1)sin(x)
f′(x)=(x−π)(e−x−1)cos(x)+(x−π)(−e−x)sin(x)+(1)(e−x−1)sin(x)
f′(0)=0
for RHD
f(x)=(π−x)(ex−1)sin(x)
f′(x)=(π−x)(ex−1)cos(x)+(π−x)(ex)sin(x)+(−1)(ex−1)sin(x)
f′(0)=0
At x=π
for LHD
f(x)=(π−x)(ex−1)sin(x)
f′(x)=(π−x)(ex−1)cos(x)+(π−x)(ex)sin(x)+(−1)(ex−1)sin(x)
f′(π)=0
for RHD
f(x)=(x−π)(ex−1)sin(x)
f′(x)=(x−π)(ex−1)cos(x)+(x−π)(ex)sin(x)+(1)(ex−1)sin(x)
f′(π)=0
By using the first principle of derivative we can say that f(x) is differentiable at x=0,π
⇒f(x) is differentiable for all x ϵ R
f(x)=|x−π|(e|x|−1)sin|x|
critical points x=0,π
At x=0
for LHD
f(x)=−(x−π)(e−x−1)sin(−x) =(x−π)(e−x−1)sin(x)
f′(x)=(x−π)(e−x−1)cos(x)+(x−π)(−e−x)sin(x)+(1)(e−x−1)sin(x)
f′(0)=0
for RHD
f(x)=(π−x)(ex−1)sin(x)
f′(x)=(π−x)(ex−1)cos(x)+(π−x)(ex)sin(x)+(−1)(ex−1)sin(x)
f′(0)=0
At x=π
for LHD
f(x)=(π−x)(ex−1)sin(x)
f′(x)=(π−x)(ex−1)cos(x)+(π−x)(ex)sin(x)+(−1)(ex−1)sin(x)
f′(π)=0
for RHD
f(x)=(x−π)(ex−1)sin(x)
f′(x)=(x−π)(ex−1)cos(x)+(x−π)(ex)sin(x)+(1)(ex−1)sin(x)
f′(π)=0
By using the first principle of derivative we can say that f(x) is differentiable at x=0,π
⇒f(x) is differentiable for all x ϵ R
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