Question

How do you simplify `(2x^4y^-3)^-1` and write it using only positive exponents?

Answer 1

See a solution process below:

Explanation:

First, eliminate the outer negative exponent using this rule for exponents:

`x^color(red)(a) = 1/x^color(red)(-a)`

`(2x^4y^-3)^color(red)(-1) => 1/(2x^4y^-3)^color(red)(- -1) => 1/(2x^4y^-3)^color(red)(1)`

Next, use this rule of exponents to eliminate the outer exponent:

`a^color(red)(1) = a`

`1/(2x^4y^-3)^color(red)(1) => 1/(2x^4y^-3)`

Now, use this rule of exponents to eliminate the negative exponent for the `y` term:

`1/x^color(red)(a) = x^color(red)(-a)`

`1/(2x^4y^color(red)(-3)) => y^color(red)(- -3)/(2x^4) => y^3/(2x^4)`

Answer 2

`y^3/(2x^4`

Explanation:

Smendyka has shown a method whereby the negative index outside the bracket is changed to a positive in the denominator.

Here is another method:

Recall the laws of indices:

`(x^3)^4 = x^(3xx4) = x^12 and (xyz)^m = x^my^mz^m`

`(2x^4y^-3)^-1" "larr` multiply the indices

`= color(blue)(2^-1x^-4)y^3" "larr` move to the denominator

`=y^3/(color(blue)(2^1x^4)`