How do you find f'(x) using the definition of a derivative for #f(x)=x^3 + 2x^2 + 1#?

1 Answer
KillerBunny
Oct 17, 2015

The derivative is #3 x^2 + 4x#

Explanation:

The definition is:

#f'(x) = lim_{h \to 0} {f(x+h) - f(x)}/h#

So the terms are:

#f(x+h)=(x+h)^3 + 2(x+h)^2 + 1#.

Term by term, we have:

  1. #(x+h)^3=x^3+3 x^2 h+3 x h^2+h^3#
  2. #2(x+h)^2 = 2(x^2+2hx+h^2)=2x^2+4hx+2h^2#

Obviously,

#f(x)=x^3+2x^2+1#.

Now we compute #f(x+h)-f(x)#, since it's very long, I'll just write down the result. If you'll need help with calculations don't hesitate to ask (but I strongly suggest to do them yourself, since it will improve your skill):

#2 h^2+h^3+4 h x+3 h^2 x+3 h x^2#

Now we divide this quantity by #h#:

#2 h+h^2+4 x+3 h x+3 x^2#.

Now, taking the limit of this quantity as #h\to 0# means to erase all the terms involving #h#, leaving #3 x^2 + 4x# as the final result.

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