Adjusting the Pattern
Factor 2x2 - 5x - 3.
An example of factoring quadratics
We'll start this problem very similarly to the simple factoring problems by looking for two numbers that fit the pattern. The thing is, it's not going to be quite the same pattern. One part stays the same, and that is the fact that we need to find a pair of numbers that will add up to the middle coefficient - in this case, -5. But the second part is going to be different. Instead of our two numbers needing to have a product equal to the constant on the end, we now need the product of our pair of numbers to be equal to the constant on the end times the leading coefficient. This was actually true for the easier factoring problems as well, but the leading coefficient was just 1, so multiplying by 1 didn't change what the number was.
The next step of the problem should be familiar. Find a pair of numbers that has a sum of -5 and a product of -6. Making a quick list of the factor pairs of 6 and keeping in mind that we'll need one to be positive and one to be negative, makes it clear that -6 and +1 are our two winners. And now we come to the only other difference in our process. Instead of simply being able to say -6 and +1 go in our binomials and we're done, there is an extra step before we can be sure of our answer. While there are multiple ways of doing this step, I recommend using the area method to work your way backward to the answer. Putting the 2x2 and the -3 in one diagonal of the chart and the two values we came up with using our pattern attached with x's in the other diagonal, gets us one step away from our answer.
If we can find what terms must have been on the outside of this chart to get multiplied in and give us what we have here, we'll be done. We do this by dividing out the greatest common factor from each row and column of our chart. So, if I look at the top row of this chart, I have a 2x2 and -6x. I need to ask myself what do those things have in common? Well, 2 and 6 are both divisible by 2, so I can take out a 2. But they also both have an x, which means I also take out an x, so I can pull a 2x to the outside of that row. Going down a row to the bottom, 1x and -3, they don't have any factors with the numbers in common, and they also don't have any variables in common, which means the only thing I can divide out is a 1.
Now, we go to the columns. Let's start in the left column, 2x2 and 1x. The numbers don't have anything in common but the variables do, which means I can take out 1x. Finally, the column on the right: -6x and -3. Both share a -3, which means I divide that out and write it on top. What we now have on the left and above our little area model is our factored answer. The terms that are on the same side are the terms that go in parentheses together to make up our two binomials, and I end up with (2x + 1)(x - 3). You can always quickly multiply out your answer to make sure you got the right thing, and if you do that here, looks like we're good.
Factoring quadratics like this take a while, and they're not always simple, so practice is key. Let's do one more example during this lesson.
Multiply the answer to make certain it is correct.