Basic question about chain rule (1 Viewer)

oompaman

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Hi,

Why can't you use the chain rule for differentiating y=(x+1)^x to find dy/dx?

Thanks
 

Trebla

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Hi,

Why can't you use the chain rule for differentiating y=(x+1)^x to find dy/dx?

Thanks
Assuming you wrote it correctly, note that a variable is in the index. In standard cases the index is a constant.
 

oompaman

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then what about something like differentiating y=sin(x^2) is that still chain rule?

Btw the question didn't say to use chain rule, i was just wondering why you couldn't use it.
 
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Trebla

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then what about something like differentiating y=sin(x^2) is that still chain rule?
Yeah. The chain rule is used when you have a function of another function. So in your example x2 is a function of x and then you are applying a sine function on top of that function to get sin(x2). Since you have a function of anothe function (also known as a composite function) then you apply the chain rule when differentiating.
 

funnytomato

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then what about something like differentiating y=sin(x^2) is that still chain rule?

Btw the question didn't say to use chain rule, i was just wondering why you couldn't use it.
yes, it is chain rule, as you can let u=x^2 then d/dx sin(x^2) =d/du sin u * du/dx
or dy/dx= dy/du* du/dx, where y=sin(x^2)

for the 1st question, you can find it if you can find , say d/dx 2^x
if you couldn't differentiate 2^x, think about the definition of log and exponentials (a ^ log_a b = b)
 
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funnytomato

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actually you do need to apply the chain rule d/dx e^(f(x))= e^(f(x)) * f'(x)
 

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