What if you wanted to simplify a mathematical expression containing exponents, like ? How would you do so? After completing this Concept, you'll be able to use the product of powers property to simplify exponential expressions like this one.
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CK-12 Foundation: 0801S Product of Powers
Guidance
Back in chapter 1, we briefly covered expressions involving exponents, like or . In these expressions, the number on the bottom is called the base and the number on top is the power or exponent . The whole expression is equal to the base multiplied by itself a number of times equal to the exponent; in other words, the exponent tells us how many copies of the base number to multiply together.
Example A
Write in exponential form.
a)
b)
c)
d)
Solution
a) because we have 2 factors of 2
b) because we have 3 factors of (-3)
c) because we have 5 factors of
d) because we have 4 factors of
When the base is a variable, it’s convenient to leave the expression in exponential form; if we didn’t write , we’d have to write instead. But when the base is a number, we can simplify the expression further than that; for example, equals , but we can multiply all those 2’s to get 128.
Let’s simplify the expressions from Example A.
Example B
Simplify.
a)
b)
c)
d)
Solution
a)
b)
c) is already simplified
d)
Be careful when taking powers of negative numbers. Remember these rules:
So even powers of negative numbers are always positive. Since there are an even number of factors, we pair up the negative numbers and all the negatives cancel out.
And odd powers of negative numbers are always negative. Since there are an odd number of factors, we can still pair up negative numbers to get positive numbers, but there will always be one negative factor left over, so the answer is negative:
Use the Product of Powers Property
So what happens when we multiply one power of by another? Let’s see what happens when we multiply to the power of 5 by cubed . To illustrate better, we’ll use the full factored form for each:
So . You may already see the pattern to multiplying powers, but let’s confirm it with another example. We’ll multiply squared by to the power of 4 :
So . Look carefully at the powers and how many factors there are in each calculation. ’s times ’s equals ’s. ’s times ’s equals ’s.
You should see that when we take the product of two powers of , the number of ’s in the answer is the total number of ’s in all the terms you are multiplying. In other words, the exponent in the answer is the sum of the exponents in the product.
Product Rule for Exponents:
There are some easy mistakes you can make with this rule, however. Let’s see how to avoid them.
Example C
Multiply .
Solution
Note that when you use the product rule you don’t multiply the bases . In other words, you must avoid the common error of writing . You can see this is true if you multiply out each expression: 4 times 8 is definitely 32, not 1024.
Example D
Multiply .
Solution
In this case, we can’t actually use the product rule at all, because it only applies to terms that have the same base . In a case like this, where the bases are different, we just have to multiply out the numbers by hand—the answer is not or or or anything simple like that.
Watch this video for help with the Examples above.
CK-12 Foundation: Products of Powers
Vocabulary
- An exponent is a power of a number that shows how many times that number is multiplied by itself. An example would be . You would multiply 2 by itself 3 times: . The number 2 is the base and the number 3 is the exponent. The value is called the power.
- Product Rule for Exponents:
Guided Practice
Simplify the following exponents:
a.
b.
Solutions:
a.
b.
Practice
Write in exponential notation:
Find each number.
Multiply and simplify: