6.07 Multiplying and dividing terms

Simplify $6x\times9y$6x×9y.

Think: Here we have a product of algebraic terms, so we can follow the process above to simplify this.

Do: $6x$6x has a coefficient of $6$6 and a pronumeral $x$x. $9y$9y has a coefficient $9$9 and a pronumeral $y$y.

We first want to evaluate the product of the coefficients. Here we have $6\times9=54$6×9=54.

Next we look at the pronumerals in each term. $6x$6x has $x$x but not $y$y and $9y$9y has $y$y but not $x$x. So we cannot simplify the pronumerals any further.

This leaves us with the factors $54$54, $x$x, and $y$y. We can simplify this without writing the multiplication signs to get $54xy$54xy.

Simplify $6xz\div\left(9yz\right)$6xz÷​(9yz).

Think: Here we have a quotient of algebraic terms, so we can follow the same process as above except that we divide instead of multiplying.

We can also write this division as the fraction $\frac{6xz}{9yz}$6xz9yz​ which will make the simplification easier.

Do: $6xz$6xz has a coefficient of $6$6 and the pronumerals $x$x and $z$z. $9yx$9yx has a coefficient $9$9 and the pronumerals $y$y and $z$z.

We first want to simplify the quotient of the coefficients. Here we have $\frac{6}{9}=\frac{2}{3}$69​=23​.

Next we simplify the pronumerals. If we take just the pronumeral part of the fraction above we get $\frac{xz}{yz}$xzyz​. $z$z is common to both the numerator and the denominator so we can cancel out $z$z, but we can't cancel out $x$x or $y$y.

This leaves us with the factors $\frac{2}{3}$23​ and $\frac{x}{y}$xy​. We can simplify this into the fraction $\frac{2x}{3y}$2x3y​.