1.07 Factoring trinomials

Since there are no common factors for all three terms, we proceed with finding the value of two integers that multiply to ac = (1)(-24) = -24 and add up to b = 10. After finding these integers, we use them to rewrite the middle term 10x as a sum of two terms and then factor the trinomial by grouping.

The factors of -24 are 1 and -24, -1 and 24, 2 and -12, -2 and 12, 3 and -8, -3 and 8, 4 and -6, -4 and 6. Among these factors, -2 and 12 are the pair that add up to 10.

We can use this to rewrite the trinomial and factor by grouping as follows:

There are no more common factors to be divided out, so the fully factored form of the polynomial is (x+12)(x-2).

We can perform a midway check that we are factoring by grouping appropriately when we factor out a GCF from each set of binomials in the step x(x+12) -2(x+12).

If we factor out a GCF at this step and the binomial factors are not equivalent, we may have split the linear term from x^{2} + 10 x - 24 incorrectly or factored out a GCF incorrectly. This is an important place to stop and check that we are factoring appropriately.

Also note that we could have also rewritten the polynomial as x^2-2x+12x-24. This would have resulted in a different middle step in factoring by grouping but the same end result.

We can factor a GCF of 3 out of the polynomial and write the polynomial as 3(x^2-9). Since the linear term is missing from the polynomial, we can write the polynomial as 3(x^2+0x-9). There are no common factors. We will find the value of two integers that multiply to ac=(1)(-9)=-9 and add up to b=0. After finding these integers, we use them to rewrite the middle term 0x as a sum of two terms. Then factor the trinomial by grouping.

The factors of -9 are 1 and -9, -1 and 9, 3 and -3. Among these factors, 3 and -3 are the pair that add up to 0.

We can use this to rewrite the trinomial and factor by grouping as follows:

There are no more common factors to be divided out, so the fully factored form of the polynomial is 3(x+3)(x-3).

Recall that the special product of a difference of squares \left(a+b\right)\left(a-b\right) = a^{2} - b^{2}. Notice that the factored form of the binomial x^2-9=(x+3)(x-3).

Since there are no common factors for all three terms, we proceed with finding the value of two integers that multiply to ac = 5 \cdot 9 = 45 and add up to b = -18. After finding these integers, we use them to rewrite the middle term -18x as a sum of two terms and then factor the trinomial by grouping.

The factor pairs of 45 are 1 and 45, -1 and -45, 3 and 15, -3 and -15, 5 and 9, -5 and -9.Note that since the middle term of the trinomial is negative, we need to consider negative and positive factors. Of these factors, -15 and -3 are the pair that adds up to -18.

We can use this to rewrite the trinomial and factor by grouping as follows:

There are no more factors to be taken out, so the fully factored form of the polynomial is \left(x - 3\right)\left(5x - 3\right).

We can check the answer by multiplying the factored form \left(5x-3\right)\left(x-3\right).

The polynomial 5x^2-3x-15x+9 simplifies to 5x^2-18x+9.