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Power of a power with integer bases and negative powers


We've already looked at the power of a power rule, which states:


Now we are going to use apply this rule to terms involving negative bases, and also negative indices.


The base number stays the same. We just multiply the powers.


Negative numbers with negative powers 

When we raise a negative numbers by an even power, we get a positive answer e.g. $\left(-4\right)^2=-4\times\left(-4\right)$(4)2=4×(4)$=$=$16$16

The same pattern applies to negative powers: $\left(-2\right)^{-4}=2^{-4}$(2)4=24$=$=$\frac{1}{16}$116

This means we can simplify expressions involving negative numbers with negative indices, and express them as a fraction with a positive index. If the power is even the fraction will be positive, but if the power is odd the fraction will be negative.

For example, $\left(-5\right)^{-3}=\frac{1}{\left(-5\right)^3}$(5)3=1(5)3 $=$= $-\frac{1}{125}$1125



Question 1

Simplify the following into the form $a^b$ab:


Question 2

Evaluate $\left(5^{-9}\right)^0$(59)0.

Question 3

$\left(\left(-4\right)^{-8}\right)^2$((4)8)2 simplifies to which of the following:

  1. $-4^{-6}$46








Question 4

We want to simplify the following expression using index laws: $4^{-2}\times64^{-3}$42×643.

  1. To use the index laws, we need both terms to be written with the same base.

    Fill in the box to re-write $64^{-3}$643 with a base of $4$4.


  2. Using the result of the previous part, express $4^{-2}\times64^{-3}$42×643 in simplest positive index form.




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