Difference between revisions of "Remainder and Factor Theorem"

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==Resources==
 
==Resources==
* [https://math.libretexts.org/Bookshelves/Precalculus/Book%3A_Precalculus_(StitzZeager)/03%3A_Polynomial_Functions/3.02%3A_The_Factor_Theorem_and_the_Remainder_Theorem The Factor Theorem and Remainder Theorem], Mathematics LibreTexts
 
 
* [https://tutorial.math.lamar.edu/classes/alg/dividingpolynomials.aspx Dividing Polynomials], Paul's Online Notes
 
* [https://tutorial.math.lamar.edu/classes/alg/dividingpolynomials.aspx Dividing Polynomials], Paul's Online Notes
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== Licensing ==
 +
Content obtained and/or adapted from:
 +
* [https://math.libretexts.org/Bookshelves/Precalculus/Book%3A_Precalculus_(StitzZeager)/03%3A_Polynomial_Functions/3.02%3A_The_Factor_Theorem_and_the_Remainder_Theorem The Factor Theorem and Remainder Theorem, Mathematics LibreTexts] under a CC BY-NC-SA license

Revision as of 16:41, 5 November 2021

The polynomial division algorithm is as follows: suppose and are nonzero polynomials where the degree of is greater than or equal to the degree of . Then there exist two unique polynomials, and , such that , where either or the degree of is strictly less than the degree of .

Remainder Theorem

Suppose is a polynomial of degree at least 1 and c is a real number. When is d===ivided by the remainder is .

Proof: By the division algorithm, , where r must be a constant since has a degree of 1. must hold for all values of , so we can set and get that . Thus the remainder .

Factor Theorem

Suppose is a nonzero polynomial. The real number is a zero of if and only if is a factor of .

By the division algorithm, is a factor of if and only if . So, since when is divided by , is a factor of if and only if ; that is, if is a zero of .

Resources

Licensing

Content obtained and/or adapted from: