How do you solve #x^ { 3} - 6x = 12#?

1 Answer
Nov 4, 2017

Use Cardano's method to find real root:

#x = root(3)(6+2sqrt(7))+root(3)(6-2sqrt(7))#

and related complex roots.

Explanation:

Given:

#x^3-6x=12#

Subtract #12# from both sides to get the standard form:

#x^3-6x-12 = 0#

This cubic equation has one irrational real root and two complex roots, which we can find using Cardano's method.

Letting #x=u+v#, our equation becomes:

#u^3+v^3+3(uv-2)(u+v)-12 = 0#

Add the constraint #(uv-2) = 0# to eliminate the term in #(u+v)#. Then our equation becomes:

#u^3+8/u^3-12 = 0#

Multiply through by #u^3# and rearrange slightly to find:

#0 = (u^3)^2-12(u^3)+8#

#color(white)(0) = (u^3)^2-2(u^3)(6)+36-28#

#color(white)(0) = (u^3-6)^2-(2sqrt(7))^2#

#color(white)(0) = ((u^3-6)-2sqrt(7))((u^3-6)+2sqrt(7))#

#color(white)(0) = (u^3-6-2sqrt(7))(u^3-6+2sqrt(7))#

That is:

#u^3 = 6+-2sqrt(7)#

Since this gives real values for #u^3# and our derivation is symmetric in #u# and #v#, we can use one of these values for #u^3# and the other for #v^3# to find real root of our original cubic:

#x_1 = root(3)(6+2sqrt(7))+root(3)(6-2sqrt(7))#

and related complex roots:

#x_2 = omega root(3)(6+2sqrt(7))+omega^2 root(3)(6-2sqrt(7))#

#x_3 = omega^2 root(3)(6+2sqrt(7))+omega root(3)(6-2sqrt(7))#

where #omega = -1/2+sqrt(3)/2i# is the primitive complex cube root of #1#.