Solving cubic polynomials: Difference between revisions
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We will consider the polynomial | We will consider the polynomial | ||
<math> x^3 + a x^2 + b x + c = 0 </math> | :<math> x^3 + a x^2 + b x + c = 0 </math> | ||
First, calculate the coefficients of the 'depressed cubic' <math>y^3 + y x + y = 0</math> obtained by the substitution <math>y = x - a/3</math>: | |||
:<math>p = \frac{3 b - a^2}{3}</math> | |||
:<math>q = \frac{9 a b - 27 c - 2 a^3}{27}</math> | |||
This can then be converted into a quadratic in <math>z^3</math> via the 'magic' Vieta substitution <math>y = z - \frac{p}{3 z}</math>, | |||
:<math>\left(z^3\right)^2 - q z^3 - left(\frac{p}{3}\right)^3 = 0</math> | |||
for which the solution is | |||
:<math>z^3 = \frac{q}{2} \pm \sqrt{\left(\frac{q}[2}\right)^2 + \left(\frac{p}{3})\right)} | |||
[[Category:Miscellany]] | [[Category:Miscellany]] | ||
Revision as of 01:52, 30 June 2022
There are many sources for how to solve cubic polynomials, but a summary is helpful when implementing a new code. This page is an attempt to record that.
We will consider the polynomial
- <math> x^3 + a x^2 + b x + c = 0 </math>
First, calculate the coefficients of the 'depressed cubic' <math>y^3 + y x + y = 0</math> obtained by the substitution <math>y = x - a/3</math>:
- <math>p = \frac{3 b - a^2}{3}</math>
- <math>q = \frac{9 a b - 27 c - 2 a^3}{27}</math>
This can then be converted into a quadratic in <math>z^3</math> via the 'magic' Vieta substitution <math>y = z - \frac{p}{3 z}</math>,
- <math>\left(z^3\right)^2 - q z^3 - left(\frac{p}{3}\right)^3 = 0</math>
for which the solution is
- <math>z^3 = \frac{q}{2} \pm \sqrt{\left(\frac{q}[2}\right)^2 + \left(\frac{p}{3})\right)}