Question
Solve the cube root equation
\sqrt[3]{x+301} - \sqrt[3]{x-301} = 2
Answer
Let
a = \sqrt[3]{x+301}
(1)
b = \sqrt[3]{x-301}
(2)
Then
a - b = 2
(3)
Difference of a and b raised to the power of 3 gives
a^3 - b^3 = 602
(4)
Factor LHS using difference of cubes formula
(a - b)(a^2+ab+b^2) = 602
(5)
Substitute (3) to (5) and simplify
a^2+ab+b^2 = 301
(6)
Square of equation (3) gives
(a -b )^2 = 4
Expand LHS
a^2 - 2ab +b^2 = 4
(7)
Substract (7) from (6) and solve for ab
ab = \dfrac{1}{3}(\dfrac{2\cdot 301}{2} - 2^2 ) = 99
(8)
Substituting ab to (6) gives
a^2+b^2 = 301 - ab = 202
(9)
Construct a perfect square binomial with (9) and (8)
(a+b)^2 = a^2+b^2+2ab
(a+b)^2 = 202 +2\cdot 99 = 400
Taking square root of both sides gives
a +b = \pm20
(10)
Now we get two systems of equations
Case 1
\begin{cases} a+b = 20 \\ a - b =2 \end{cases}
which gives
\begin{cases} a= 11 \\ b =19 \end{cases}
Then
x = a^3 - 301 = 11^3 - 301 = 1030
Case 2
\begin{cases} a+b = -20 \\ a - b =2 \end{cases}
which gives
\begin{cases} a= -9 \\ b =-11 \end{cases}
Then
x = a^3 - 301 = -9^3 - 301 = -1030
In summary, we get two solutions for x.
x = 1030 \text{ or }x = -1030