Exponents in Algebra appear quite often in expressions and equations, as such knowing how to effectively work with them is something that is important when learning Algebra.
This page will show a variety of exponent laws examples.
Exponents with Numbers:
We can recall how standard exponents work with numbers.Where the result is a multiplication of the number by itself a certain number of times.
52 = 5 × 5 , 53 = 5 × 5 × 5
General case:
5n = 5 × 5 × 5 ……… × 5 n times. For n > 0.
There are some laws for exponents in Algebra that can be handy to know, sometimes referred to as laws of indices.
These laws for exponents can be particularly useful when manipulating expressions in Algebra that contain one or more variables.
Below they are listed and demonstrated with an example involving numbers.
Algebra Exponent Laws Examples
The following all apply where x > 0, \space y > 0, with a and b being integers.
1)
(xy)^a \space = \space x^ay^a
EXAMPLE
( 2 × 4 )2 = 82 = 64 , 22 × 42 = 4 × 16 = 64
2)
(x^{a})^b \space = \space x^{ab}
EXAMPLE
( 22 )3 = 43 = 64 , 22×3 = 26 = 64
3)
x^{a}x^{b} \space = \space x^{a+b}
EXAMPLE
32 × 33 = 9 × 27 = 243 , 32+3 = 35 = 243
4)
{\frac{x^a}{x^b}} = x^{a{\text{--}}b}
EXAMPLE
{\frac{4^5}{4^3}} = {\frac{4 \times 4 \times 4 \times 4 \times 4}{4 \times 4 \times 4}}
Now some 4’s can be cancelled out.
{\frac{{\cancel{4}} \times {\cancel{4}} \times {\cancel{4}} \times 4 \times 4}{\cancel{4} \times \cancel{4} \times \cancel{4}}} = 4 \times 4 = 4^2 = 16
4^{5{\text{--}}3} = 4^2 = 16
5)
({\frac{x}{y}})^a = {\frac{x^a}{y^a}}
EXAMPLE
({\frac{8}{4}})^2 = 2^2 = 4
{\frac{8^2}{4^2}} = {\frac{64}{16}} = 4
6)
x^0 \space = \space 1
Unless x \space = \space 0, then x^0 is undefined.
Laws for Exponents Summary
1) (xy)^a \space = \space x^ay^a
2) (x^{a})^b \space = \space x^{ab}
3) x^{a}x^{b} \space = \space x^{a+b}
4) {\frac{x^a}{x^b}} = x^{a{\text{--}}b}
5) ({\frac{x}{y}})^a = {\frac{x^a}{y^a}}
6) x^0 \space = \space 1 Provided x {\cancel{=}} \space 0.