Math Calculators, Lessons and Formulas

It is time to solve your math problem

mathportal.org

Polynomial roots calculator

google play badge app store badge

This free math tool finds the roots (zeros) of a given polynomial. The calculator computes exact solutions for quadratic, cubic, and quartic equations. Calculator shows all the work and provides step-by-step on how to find zeros and their multiplicities.

Find roots of polynomial $$ p(x) = -x^3 $$

solution

The root of polynomial $ p(x) $ is:

$$ \begin{aligned}x &= 0 \end{aligned} $$

explanation

$$ \begin{aligned} -x^3 & = 0 \\[1 em] x & = 0 \end{aligned} $$

Multiplicity of this zero is equal to 3.

Report an Error!

Script name : polynomial-roots-calculator

Form values: -x^3 , g , Find roots of -x^3 ,

Comment (optional)

 
close
Polynomial roots calculator
Find real and complex zeros for any polynomial.
help ↓↓ examples ↓↓ tutorial ↓↓
x^2-4x+3
2x^2-3x+1
x^3–2x^2–x+2
Display polynomial graph
thumb_up 12076 thumb_down

Get Widget Code

working...
Examples
ex 1:
find roots of the polynomial 4x2-10x+4
ex 2:
find polynomial roots -2x4-x^3+189
ex 3:
solve equation 6x3-25x3+2x+8=0
ex 4:
find polynomial roots 2x3-x2-x-3
ex 5:
find roots 2x4-x4-14x3-6x2+24x+40
Find more worked-out examples in our database of solved problems..
Search our database with more than 300 calculators
TUTORIAL

How to find polynomial roots ?

The process of finding polynomial roots depends on its degree. The degree is the largest exponent in the polynomial. For example, the degree of polynomial p(x)=8x2+3x-1 is 2. We name polynomials according to their degree. For us, the most interesting ones are: quadratic (degree = 2), Cubic (degree=3) and quartic (degree = 4).

Roots of quadratic polynomial

This is the standard form of a quadratic equation is

ax2+bx+c=0

The formula for the roots is

$$ x_1, x_2 = \dfrac{-b \pm \sqrt{b^2-4ac}}{2a} $$

Example 01: Solve the equation 2x2+3x-14.

In this case we have a=2, b=3, c=-14, so the roots are:

$$ \begin{aligned} x_1, x_2 &= \dfrac{-b \pm \sqrt{b^2-4ac}}{2a} \\ x_1, x_2 &= \dfrac{-3 \pm \sqrt{3^2-4 \cdot 2 \cdot (-14)}}{2\cdot2} \\ x_1, x_2 &= \dfrac{-3 \pm \sqrt{9 + 4 \cdot 2 \cdot 14}}{4} \\ x_1, x_2 &= \dfrac{-3 \pm \sqrt{121}}{4} \\ x_1, x_2 &= \dfrac{-3 \pm 11}{4} \\ x_1 &= \dfrac{-3 + 11}{4} = \dfrac{8}{4} = 2 \\ x_2 &= \dfrac{-3 - 11}{4} = \dfrac{-14}{4} = -\dfrac{7}{2} \end{aligned} $$

Quadratic equation - special cases

Sometimes, it is much easier not to use a formula for finding the roots of a quadratic equation.

Example 02: Solve the equation 2x2+3x=0.

Because our equation now only has two terms, we can apply factoring. Using factoring, we can reduce an original equation to two simple equations.

$$ \begin{aligned} 2x^2 + 3x &= 0 \\ \color{red}{x} \cdot \left( \color{blue}{2x + 3} \right) &= 0 \\ \color{red}{x = 0} \,\,\, \color{blue}{2x + 3} & \color{blue}{= 0} \\ \color{blue}{2x } & \color{blue}{= -3} \\ \color{blue}{x} &\color{blue}{= -\frac{3}{2}} \end{aligned} $$

Example 03: Solve equation 2x2-18=0

This is also a quadratic equation that can be solved without using a quadratic formula.

2x2 - 18 = 0
      2x2 = 18
      x2 = 9

The last equation actually has two solutions. The first one is obvious

$$ \color{blue}{x_1 = \sqrt{9} = 3} $$

and the second one is

$$ \color{blue}{x_2 = -\sqrt{9} = -3 }$$

Roots of cubic polynomial

To solve a cubic equation, the best strategy is to guess one of three roots.

Example 04: Solve the equation 2x3-4x2-3x+6=0.

Step 1: Guess one root.

The good candidates for solutions are factors of the last coefficient in the equation. In this example, the last number is -6 so our guesses are:

1, 2, 3, 6, -1, -2, -3 and -6

If we plug in x=2into the equation we get,

$$ 2 \cdot \color{blue}{2}^3 - 4 \cdot \color{blue}{2}^2 - 3 \cdot \color{blue}{2} + 6 = \\\\ 2 \cdot 8 - 4 \cdot 4 - 6 - 6 = 0$$

So, x=2 is the root of the equation. Now we have to divide polynomial by x-ROOT.

In this case we divide 2x3-x2-3x+6 by x-2.

(2x3-x2-3x+6)/(x-2) = 2x2-3

Now we use 2x2-3 to find remaining roots

$$ \begin{aligned} 2x^2 - 3 &= 0 \\ 2x^2 &= 3 \\ x^2 &= \frac{3}{2} \\ x_1 & = \sqrt{ \frac{3}{2} } = \frac{\sqrt{6}}{2}\\ x_2 & = -\sqrt{ \frac{3}{2} } = - \frac{\sqrt{6}}{2} \end{aligned} $$

Cubic polynomial – factoring method

To solve cubic equations, we usually use the factoring method.

Example 05: Solve equation 2x3-4x2-3x+6=0.

Notice that a cubic polynomial has four terms, and the most common factoring method for such polynomials is factoring by grouping.

$$ \begin{aligned} 2x^3 - 4x^2 - 3x + 6 &=\color{blue}{2x^3-4x^2} \color{red}{-3x + 6} = \\ &= \color{blue}{2x^2(x-2)} \color{red}{-3(x-2)} = \\ &= (x-2)(2x^2 - 3) \end{aligned} $$

Now we can split our equation into two smaller equations, which are much easier to solve. The first one is x-2=0 with a solution x=2, and the second one is 2x2-3=0.

$$ \begin{aligned} 2x^2 - 3 &= 0 \\ x^2 = \frac{3}{2} \\ x_1x_2 = \pm \sqrt{\frac{3}{2}} \end{aligned} $$
RESOURCES
362 861 664 solved problems
×
ans:
syntax error
C
DEL
ANS
±
(
)
÷
×
7
8
9
4
5
6
+
1
2
3
=
0
.