Question

How do you find the limit of `sqrt(x^2 + 1) - x` as x approaches infinity?

Answer 1

`= 0`

Explanation:

`lim_(x to oo) sqrt(x^2 + 1) - x`

`= lim_(x to oo) x( sqrt(1 + 1/x^2) - 1)`

`= lim_(x to oo) x( (1 + 1/x^2)^(1/2) - 1)`

Binomial expansion on the radical

`=lim_(x to oo) x( (1 + 1/2 *1/x^2 + O(1/x^4)) - 1)`

`=lim_(x to oo) x( 1/(2 x^2) + O(1/x^4))`

`=lim_(x to oo) 1/(2 x) + O(1/x^3)`

`= 0`

Answer 2

Rewrite the expression using the conjugate.

Explanation:

`((sqrt(x^2+1)-x))/1 * ((sqrt(x^2+1)+x))/((sqrt(x^2+1)+x)) = ((x^2+1)-x^2)/(sqrt(x^2+1)+x)`

`= 1/(sqrt(x^2+1)+x)`

As `x rarr oo`, the denominator also increases without bound, so the ratio goes to `0`.

The following is optional.

From `= 1/(sqrt(x^2+1)+x)`, we could continue:

For `x > 0`, we get

`= 1/(sqrt(x^2)sqrt(1+1/x^2)+x)`

`= 1/(x sqrt(1+1/x^2)+x)`

`= 1/(x(sqrt(1+1/x^2)+1)`

As `x` increases without bound, `(sqrt(1+1/x^2)+1) rarr 2`, and `x rarr oo`, so

`1/(x(sqrt(1+1/x^2)+1)) rarr 0`