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#1 2005-11-04 11:02:06

Qasim
Novice

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Differentiation from first principles

I have the equation y = x^3 + 12x - 9

Doing x = k and x = k+h I am doing differentiation

Anyway you get:

k^3 + 3k^2h + 3kh^2 + h^3 + 12k + 12h - 9 - (k^3+12k-9)
over k+h-k

Anyway I cancel the k's at the bottom and then divide the top by h

Now the answer states

3k^2h + h^3 +12h
Over h

I dont get how they got rid of the 3kh^2

#2 2005-11-06 06:55:43

kylekatarn
Power Member

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Re: Differentiation from first principles

x = k and x = k+h ?????
How can x=k and x=k+h at the same time?

anyway, what do you want to diferentiate? y(x)?
Do you want to find DY? DX? Or maybe DY/DX???????????????

Please restate your question in a more clear way

#3 2005-11-06 08:14:10

mathsyperson
Moderator

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Re: Differentiation from first principles

To differentiate from first principles, you need to consider two points on the curve that are very close to each other. To find the gradient between them, you would divide the difference in y by the difference in x.

Using yours, one point would be (k, k + 12k - 9) and the other would be (k + h, [k+h] + 12[k + h] - 9). {Different brackets used for clarity.}

Expanding the y-part of k+h gives k + 3kh + 3kh + h + 12k + 12h - 9.

That means that the difference in y is 3kh + 3kh + h + 12h and the difference in x is h, obviously.

The gradient is found by dividing the difference in y by the difference in x, which is 3k + 3kh + h + 12. The gradient at a point would be when k and k+h are in the same place and so h would be 0. Substituting h = 0 into the gradient gives dy/dx = 3k + 12. Put x back in to get 3x + 12.


Why did the vector cross the road?
It wanted to be normal.

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