5. Equivalent Fractions
Recall the following fraction properties:
`3/4=15/20`
This is true because we have multiplied both the top (numerator) and the bottom (denominator) by `5`. We say `3/4` and `15/20` are equivalent fractions.
`7/21=1/3`
This is true because we have divided both the numerator and the denominator by `7`. We say `7/21` and `1/3` are equivalent fractions.
We now apply these ideas to fractions involving algebraic expressions.
Example 1
Divide the numerator and the denominator of `(6a^3b^2)/(9a^5b^4)` by 3ab2.
Answer:
`(6a^3b^2-:3ab^2)/(9a^5b^4-:3ab^2)=(2a^2)/(3a^4b^2)`
NOTE: This answer is not in simplest form. We could divide top and bottom again by a2, to give `2/(3a^2b^2)`
Know when to stop!
The following expression cannot be simplified further because there is an addition sign in the numerator and a subtraction in the denominator:
`(3+x^2)/(2-x)`
We cannot cancel the x and the x2.
However, if the terms in the numerator and denominator are multiplied, then we can do further simplifying like this:
`(3x^2)/(2x)=(3xxx^2)/(2xxx)=(3x)/(2)`
Example 2
Reduce to simplest form:
`(10x^2+15x)/(2x+3)`
Answer:
We start by factoring the numerator and then observe we can divide top and bottom by one of the factors:
`(10x^2+15x)/(2x+3)=(5x(2x+3))/(2x+3)=5x`
Example 3
Reduce to simplest form:
`(2x^2-8)/(4x+8)`
Exercises
Simplify:
(1) `(2a^2xy)/(6axyz^2)`
(2) `(t-a)/(t^2-a^2)`
(3) `(x^2-y^2)/(x^2+y^2)`
(4) `(x^2-y^2)/(y-x)`