Question

How do you find the derivative of `1/(x^2-1)` using the limit definition?

Answer 1

`(df)/(dx)=(-2x)/(x^2-1)^2`

Explanation:

as `f(x)=1/(x^2-1)`

`f(x+h)=1/((x+h)^2-1)`

Hence, `f(x+h)-f(x)=1/((x+h)^2-1)-1/(x^2-1)`

= `((x^2-1)-((x+h)^2-1))/((x^2-1)((x+h)^2-1))`

= `((x^2-1)-(x^2+2hx+h^2-1))/((x^2-1)((x+h)^2-1))`

= `((x^2-1-x^2-2hx-h^2+1))/((x^2-1)((x+h)^2-1))`

= `((-2hx-h^2))/((x^2-1)((x+h)^2-1))` and

`(f(x+h)-f(x))/h=((-2x-h))/((x^2-1)((x+h)^2-1))`

Now `(df)/(dx)=Lt_(h->0)(f(x+h)-f(x))/h`

= `Lt_(h->0)((-2x-h))/((x^2-1)((x+h)^2-1))`

= `(-2x)/((x^2-1)(x^2-1))`

= `(-2x)/(x^2-1)^2`