Simplifying algebraic fractions is just the same as simplifying fractions that are made up of numbers only. We look for the highest common factor between the numerator and the denominator in the fraction.
Simplify $\frac{9e}{54}$9e54
Think: $9$9 is the highest common factor between $9e$9e and $54$54.
Do: $\frac{9e}{54}=\frac{e}{6}$9e54=e6
We've looked at how to substitute values into algebraic expressions. The process is just the same when we are substituting into algebraic fractions.
Evaluate: If $a=5$a=5, what is the value of $\frac{8a}{10}$8a10?
Think: After substitution, we can write this question as $\frac{8\times5}{10}$8×510
Do:
$\frac{8\times5}{10}$8×510 | $=$= | $\frac{40}{10}$4010 |
$=$= | $4$4 |
Adding and subtracting algebraic fractions
Do you remember that when we are adding or subtracting fractions, we need to have common denominators? Well the same goes for algebraic fractions. We need to find a common factor between the fractions (remember you can always multiply the denominators together to find a common factor).
1. Find a common denominator
2. Multiply the numerators by the same number as the denominators to keep the fractions equivalent
3. Add the numerators
4. Simplify the fraction if possible.
Simplify: $\frac{8m}{32}$8m32.
Simplify: $\frac{17y}{20}+\frac{14y}{20}$17y20+14y20.
If $m=5$m=5, what is the value of $\frac{m}{2m}$m2m?