When factoring out polynomials, we find the polynomial that divide out evenly from the original polynomial . How to factor Polynomials: For this we have to find all the terms that if multiplied together we get the original polynomial. This is continued to all the terms until this cannot be simplified any more. If the polynomial cannot be factored any more then the polynomial is said to be completely factored.
A factor of a polynomial is any polynomial which divides evenly into the given polynomial For example, x + 2 is a factor of the polynomial x^2 – 4.
The factorization of a polynomial is its representation as a product its factors. For example, the factorization of x^2 – 4 is (x – 2)(x + 2).
In mathematics, factorization or factoring is the breaking apart of a polynomial into a product of other smaller polynomials. If you choose, you could then multiply these factors together, and you should get the original polynomial.
This example shows how to factoring polynomials. Take 3x^2 – 12x + 9. The common term in these is 3. So take 3 out and divide each term by 3. We get 3 (x 2-4x + 3).
Step by step explanation as how to Factor out Polynomials is given below
Factor 4a^2 + 20a – 3a - 15
The first two terms have a common factor in 4a. The last two terms have a common factor in 3.
We need to factor those terms out.
4a ( a + 5) -3(a+5)
Now you have a binomial. Each term has a factor of (a + 5).
(4a -3) (a+5) is the factored terms.
Another example is given below on factoring of polynomials
X2 -8x + 15
start by looking at the factor pairs of 15. We are looking for a pair of factors which add up to equal -8. Look for the factor pairs of +15 so that they add up to -8 The negative factor pairs of 15 are:
-15 and -1
-5 and -3
Since -5 + -3 = -8 this is the pair we are looking for and we can factor the
original expression into: (x-5)(x-3)