Difference between revisions of "Remainder Theorem"
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The Remainder Theorem states that the remainder when the polynomial <math>P(x)</math> is divided by <math>x-a</math>(usually with synthetic division) is equal to the simplified value of <math>P(a)</math> | The Remainder Theorem states that the remainder when the polynomial <math>P(x)</math> is divided by <math>x-a</math>(usually with synthetic division) is equal to the simplified value of <math>P(a)</math> | ||
− | ==What | + | =Examples= |
− | + | ==Example 1== | |
+ | What is the remainder in <math>\frac{x^2+2x+3}{x+1}</math>? | ||
+ | ==Solution== | ||
+ | Using synthetic or long division we obtain the quotient <math>x+1+\frac{2}{x^2+2x+3}</math>. In this case the remainder is <math>2</math>. However, we could've figured that out by evaluating <math>P(-1)</math>. Remember, we want the divisor in the form of <math>x-a</math>. <math>x+1=x-(-1)</math> so <math>x=-1</math>. | ||
+ | |||
+ | <math>P(-1) = (-1)^2+2(-1)+3 = 1-2+3 = \boxed{2}</math> |
Revision as of 11:49, 20 November 2011
Contents
[hide]Theorem
The Remainder Theorem states that the remainder when the polynomial is divided by (usually with synthetic division) is equal to the simplified value of
Examples
Example 1
What is the remainder in ?
Solution
Using synthetic or long division we obtain the quotient . In this case the remainder is . However, we could've figured that out by evaluating . Remember, we want the divisor in the form of . so .