Polynomial Factor Theorem Checker

Easily determine if $$(x - a)$$ is a factor of your polynomial. Just enter the polynomial and the value of $$a$$ !

Enter Polynomial

\({p(x)}\)

Use '^' for exponents (e.g., x^2). Ensure valid mathematical syntax.

Enter

\(a\)

value:

Value of $$a$$ in the factor $$(x - a)$$ .

Factor Theorem Result

Understanding Factor Theorem

The Factor Theorem states that for a polynomial $${p(x)}$$ , $$(x - a)$$ is a factor of $${p(x)}$$ if and only if $${p(a) = 0}$$ .

Factor Theorem:

p(a) = 0 \iff (x-a) \text{ is a factor of } p(x)

We substitute $$x = a$$ into the polynomial $${p(x)}$$ , where $$a = $$ .

If the result $${p(a)}$$ is $$0$$ , then $$(x - $$ $$)$$ is a factor. Otherwise, it is not.

Since $$p($$ $$) = 0$$ , $$(x - $$ $$)$$ is a factor of the polynomial.

Since $$p($$ $) \neq 0$ , $$(x - $$ $$)$$ is not a factor of the polynomial.

About the Factor Theorem

The Factor Theorem is a key concept in algebra that links the roots of a polynomial to its factors. It's particularly useful for quickly checking if a linear expression $$(x - a)$$ divides a polynomial $${p(x)}$$ without performing long division.

To use this tool, simply input your polynomial and the value of $$a$$ . The tool will evaluate $${p(a)}$$ and determine if it equals zero. If it does, then $$(x - a)$$ is a factor; otherwise, it is not. This method is much faster than polynomial long division, especially for higher-degree polynomials.

How to Use:

Enter your polynomial in the 'Polynomial' field. Use standard mathematical notation (e.g., x^3 + 2x^2 - 5x + 6).
Enter the value of 'a' in the 'Value of a' field. This corresponds to the $$a$$ in the factor $$(x - a)$$ .
Click 'Check Factor' to see if $$(x - a)$$ is a factor.
View the result below, indicating whether $$(x - a)$$ is a factor. Copy the result if needed.

Learn more about the Factor Theorem on Wikipedia.