Question

Question #60236

Answer 1

`-2 < x < 2`

Explanation:

Multiply two negatives expressions together and you get a positive.

`g(x)` is negative so `(x^2-4)` must also be negative.

Thus we need to solve for `x^2-4<0`

add 4 to both sides

`x^2<4`

square root both sides

`x<+-2`
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Note that if `x=-2`, then we have `f(x)=((-2)^2-4)g(x)=0`

This does not satisfy the condition `f(x)>0` so `x=-2` is an excluded value. This is also true of and `x<-2` as it would make `f(x)` negative. Thus we have the restriction: `-2 < x < 2`

Answer 2

`f(x)>0` for `-2 < x < 2`

Explanation:

The required range of values of `x` satisfies:
`f(x)>0`
or `(x^2-4).g(x)>0`
If `g(x)` is always negative, the the product `(x^2-4).g(x)` will only be positive (or >0) when `(x^2-4)` is also negative, i.e. when;
`(x^2-4)<0`
`x^2<4`
Taking the square root on both sides,
`absx<2`
or `-2 < x < 2`
This can be seen in the graph of `(x^2-4)`. The function takes a negative value only in the range `-2 < x < 2`
graph{x^2-4 [-5, 5, -2.5, 2.5]}
Therfore,
`f(x)>0` for `-2 < x < 2`