Question

How do you solve `x^(2/3) - 3x^(1/3) - 4 = 0`?

Answer 1

Set `z=x^(1/3)` When you find the `z` roots, find `x=z^3`

Roots are `729/8` and `-1/8`

Explanation:

Set `x^(1/3)=z`

`x^(2/3)=x^(1/3*2)=(x^(1/3))^2=z^2`

So the equation becomes:

`z^2-3z-4=0`

`Δ=b^2-4ac`

`Δ=(-3)^2-4*1*(-4)`

`Δ=25`

`z_(1,2)=(-b+-sqrt(Δ))/(2a)`

`z_(1,2)=(-(-4)+-sqrt(25))/(2*1)`

`z_(1,2)=(4+-5)/2`

`z_1=9/2`

`z_2=-1/2`

To solve for `x`:

`x^(1/3)=z`

`(x^(1/3))^3=z^3`

`x=z^3`

`x_1=(9/2)^3`

`x_1=729/8`

`x_2=(-1/2)^3`

`x_2=-1/8`

Answer 2

x = 64 or x = -1

Explanation:

note that `(x^(1/3))^2 = x^(2/3)`

Factorising `x^(2/3) - 3x^(1/3) - 4 = 0` gives ;

`( x^(1/3) - 4 )( x^(1//3) + 1 ) = 0`

`rArr ( x^(1/3) - 4 ) = 0 or ( x^(1/3) + 1 ) = 0`

`rArr x^(1/3) = 4 or x^(1/3) = - 1`

'cubing' both sides of the pair of equations :

`(x^(1/3))^3 = 4^3 and (x^(1/3))^3 = (- 1 )^3`

`rArr x = 64 or x = - 1`