Difference between revisions of "Factor Theorem"
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− | If <math>P(x)</math> denotes a polynomial of degree <math>n</math> such that<cmath>P(k)=\frac{k}{k+1}</cmath>for <math>k=0,1,2,\ | + | If <math>P(x)</math> denotes a polynomial of degree <math>n</math> such that<cmath>P(k)=\frac{k}{k+1}</cmath>for <math>k=0,1,2,\cdots,n</math>, determine <math>P(n+1)</math>. |
(Source: [[1975 USAMO Problems/Problem 3|1975 USAMO Problem 3]]) | (Source: [[1975 USAMO Problems/Problem 3|1975 USAMO Problem 3]]) | ||
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==See Also== | ==See Also== |
Revision as of 11:31, 2 May 2024
In algebra, the Factor theorem is a theorem regarding the relationships between the factors of a polynomial and its roots.
One of it's most important applications is if you are given that a polynomial have certain roots, you will know certain linear factors of the polynomial. Thus, you can test if a linear factor is a factor of a polynomial without using polynomial division and instead plugging in numbers. Conversely, you can determine whether a number in the form ( is constant, is polynomial) is using polynomial division rather than plugging in large values.
Statement
The Factor Theorem says that if is a polynomial, then is a factor of if and only if .
Proof
If is a factor of , then , where is a polynomial with . Then .
Now suppose that .
Apply Remainder Theorem to get , where is a polynomial with and is the remainder polynomial such that . This means that can be at most a constant polynomial.
Substitute and get . Since is a constant polynomial, for all .
Therefore, , which shows that is a factor of .
Problems
Here are some problems that can be solved using the Factor Theorem:
Introductory
Intermediate
Suppose is a -degree polynomial. The Fundamental Theorem of Algebra tells us that there are roots, say . Suppose all integers ranging from to satisfies . Also, suppose that
for an integer . If is the minimum possible positive integral value of
.
Find the number of factors of the prime in . (Source: I made it. Solution here)
Olympaid
If denotes a polynomial of degree such thatfor , determine .
(Source: 1975 USAMO Problem 3)
See Also
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