Find the least common multiple of 15x, 20, and x squared plus 5x. So when you're trying to find the least common multiple of a bunch of numbers you wanna break them down into their smallest constiguent parts. And if you're dealing with regular numbers, those smallest constiguent parts are the prime factorization numbers. And if you're dealing with things that have variable expressions you just wanna factor them into their simplest possible components. You can't really call those prime factorizations. So let's try to do it. And once you do that, the least common multiple just needs to be the smallest number that can be factored into those constiguents and those constiguents in them. So let's factor each of them. So if I factor 15x, this is the same things as 15 times x and 15 is three times five. Both three and five are prime. So we can factor this as 3 times 5 times x. That's the, well, for the coefficient we've done the prime factorization. And then x, that's as much as we can factor we don't know if x is prime or not. It's a variable. Let's do the same thing for 20. So 20 here can be factored into 2 and 10. And 10 can be factored into 2 and 5. So 20 is equal to 2 times 2 times 5. And that's just a straight factorisation Now let's do x square plus 5x x squared plus 5x, we can factor out and x, both of these terms are divisible by x so this is equal to x times x plus 5 Right, if you divide... if you factor out an x here you just get an x, if you factor out a x out of 5x, you just get a 5. And so the least common multiple, so let me write it down, the least common multiple has to have the smallest number that has all of these components at least, so it has all of these factors in it. So let's just start with the smallest numbers and then we'll get to the variables. So it has to have at least to 2s, because we have two 2s here, we don't have any of them here, we have to have at least two 2s. So we have two, let me do one of those pink 2s, so it has to have at least two 2s, two times two, two times two. If it's going to be divisible by 20, it's also gonna need a 5, but we'll get to that in a second. So we have to have at least two 2s, and then it needs to have at least one three, it needs at least one three, if it has any chance of being divisible by 15x. So it has to have at least one 3, none of these guys, so at least one 3, and then 5 if it has any chance of being divisible by 15x, it has to have at least one 5, if it has any chance of being divisible by 20, it has to have at least one 5, so it has to have at least one 5. This one 5 right over here, will help make it sure that it is divisible both by 15x and 20, although we haven't put all of the factors there. Although this is already divisible by 20, because we have the 2 times 2 times 5 here This isn't quite divisible by 15x yet, because we don't have an x here. It is divisible already by 15, because we already have the 3 times 5. And then you get to the x. This right over here has one x value, so in order to be divisible by 15x, it has to have at least one x here And so this is already divisible by 15x, you have 15x right over here 3 times 5 times x It's already divisible by 20 you have 2 times 2 times 5, that is 20. Is it divisible by x square + 5x? Well it does have this x here, but it still doesn't have an x plus 5 in it. It still doesn't have and x plus 5, so let me do that in orange. So this, the least common multiple also needs, an x plus 5 over here. And so this is the least common multiple. If you wanna multiply it out, to may be simplify it a little bit, 2 times 2 is 4, 4 times 3 is 12, 12 times 5 is 60, 60 times x is 60x, so this is 60x 60x times x plus 5. And if we want we can multiply it out. 60x times x plus 5 is 60x squared plus, 60 times 5 is 300, 300x And there you go, the least common multiple.