Differentiation Question (Showing first derivative of something) (1 Viewer)

TearsOfFire

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I'm stuck with this differentiation question:

Given y= x(x+1)^3, Show that dy/dx = (4x+1)(x+1)^2

So far, this is what I've done ( I'm not too sure if I'm correct)

You use the product rule and the chain rule, and I got

u=x, u'=1
v=(x+1)^3, v'=3(1)(x+1)^2 (You use the chain rule right?)

u'v + v'u


But then I get stuck... after subbing in the values I don't know how to get to show it.. Have I done something wrong?

Any help would be very much appreciated. I've just got a whole bunch of similar questions, but I'm able to differentiate but I have no idea how to work it out from there.

Thanks in advance
 

lolokay

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so you have
(x+1)3 + 3(x+1)2x
..then factorise
 

kurt.physics

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I'm stuck with this differentiation question:

Given y= x(x+1)^3, Show that dy/dx = (4x+1)(x+1)^2

So far, this is what I've done ( I'm not too sure if I'm correct)

You use the product rule and the chain rule, and I got

u=x, u'=1
v=(x+1)^3, v'=3(1)(x+1)^2 (You use the chain rule right?)

u'v + v'u


But then I get stuck... after subbing in the values I don't know how to get to show it.. Have I done something wrong?

Any help would be very much appreciated. I've just got a whole bunch of similar questions, but I'm able to differentiate but I have no idea how to work it out from there.

Thanks in advance
Okay, so you have done everything right, you just need to factorise in order to simplify. You have






As you know



therefore





Which can be written



So we are just factorizing out of it.
 

Finx

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Would it be possible to expand and differentiate?
 

Trebla

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A less conventional method (if you hate using the product rule) is that you could note that:
x(x + 1)3 = ([x + 1] - 1)(x + 1)3
= (x + 1)4 - (x + 1)3

Then you easily differentiate without thinking about the product rule lol
 

azureus88

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A less conventional method (if you hate using the product rule) is that you could note that:
x(x + 1)3 = ([x + 1] - 1)(x + 1)3
= (x + 1)4 - (x + 1)3

Then you easily differentiate without thinking about the product rule lol
lol nice
 

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