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Drill Evaluate the expression. 1. 2. 3.. Algebra 1 Ch 8.1 – Multiplication Property of Exponents.

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Presentation on theme: "Drill Evaluate the expression. 1. 2. 3.. Algebra 1 Ch 8.1 – Multiplication Property of Exponents."— Presentation transcript:

1 Drill Evaluate the expression. 1. 2. 3.

2 Algebra 1 Ch 8.1 – Multiplication Property of Exponents

3 Objective Students will use the properties of exponents to multiply exponential expressions

4 Before we begin In chapter 8 we will be looking at exponents and exponential functions… That is, we will be looking at how to add, subtract, multiply and divide exponents… Once we have done that…we will apply what we have learned to simplifying expressions and solving equations… Before we do that…let’s do a quick review of what exponents are and how they work…

5 Review 5454 The above number is an exponential expression. The components of an exponential expression contain a base and a power Base Power or Exponent The power (exponent) tells the base how many times to multiply itself In this example the exponent (4) tells the base (5) to multiply itself 4 times and looks like this: 5 ● 5 ● 5 ● 5

6 Review – Common Error 5454 A common error that student’s make is they multiply the base times the exponent. THAT IS INCORRECT! Let’s make a comparison: 5 ● 5 ● 5 ● 5 = 625 Correct: INCORRECT 5 ● 4 = 20

7 One more thing… When working with exponents, the exponent only applies to the number or variable directly to the left of the exponent. Example:3x 4 y In this example the exponent (4) only applies to the x If you have an expression in brackets. The exponent applies to each term within the brackets Example:(3x) 2 In this example the exponent (2) applies to the 3 and the x

8 Properties In this lesson we will focus on the multiplication properties of exponents… There are a total of 3 properties that you will be expected to know how to work with. They are: Product of Powers Property Power of a Power Property Power of a Product Property This gets confusing for students because all the names sound the same… Let’s look at each one individually…

9 Product of Powers Property To multiply powers having the same base, add the exponents. Example: a m ● a n = a m+n Proof: a 2 ● a 3 =a ● a ● a ● a ● a =a 2 + 3 = a 5 Two factors Three factors

10 Example #1 5 3 ● 5 6 When analyzing this expression, I notice that the base (5) is the same. That means I will use the Product of Powers Property, which states when multiplying, if the base is the same add the exponents. Solution: 5 3 ● 5 6 = 5 3+6 = 5 9

11 Example #2 x 2 ● x 3 ● x 4 When analyzing this expression, I notice that the base (x) is the same. That means I will use the Product of Powers Property, which states when multiplying, if the base is the same add the exponents. Solution: x 2 ● x 3 ● x 4 = x 2+3+4 = x 9

12 Power of a Power Property To find a power of a power, multiply the exponents Example: (a m ) n = a m●n Proof: (a 2 ) 3 = a 2●3 = a 2 ● a 2 ● a 2 = a ● a ● a ● a ● a ● a = a 6 Three factors Six factors

13 Example #3 (3 5 ) 2 When I analyze this expression, I see that I am multiplying exponents Therefore, I will use the Power of a Power Property to simplify the expression, which states to find the power of a power, multiply the exponents. (3 5 ) 2 = 3 5●2 = 3 10 Solution:

14 Example #4 [(a + 1) 2 ] 5 When I analyze this expression, I see that I am multiplying exponents Therefore, I will use the Power of a Power Property to simplify the expression, which states to find the power of a power, multiply the exponents. Solution: [(a + 1) 2 ] 5 = (a + 1) 2●5 = (a + 1) 10

15 Power of a Product Property To find a power of a product, find the power of each factor and multiply Example: (a ● b) m = a m ● b m This property is similar to the distributive property that you are expected to know. In this property essentially you are distributing the exponent to each term within the parenthesis

16 Example #5 (6 ● 5) 2 When I analyze this expression, I see that I need to find the power of a product Therefore, I will use the Power of a Product Property, which states to find the power of a product, find the power of each factor and multiply Solution: (6 ● 5) 2 = 6 2 ● 5 2 = 36 ● 25 = 900

17 Example #6 (4yz) 3 When I analyze this expression, I see that I need to find the power of a product Therefore, I will use the Power of a Product Property, which states to find the power of a product, find the power of each factor and multiply Solution: (4yz) 3 = 4 3 y 3 z 3 = 64y 3 z 3

18 Example # 7 (-2w) 2 When I analyze this expression, I see that I need to find the power of a product Therefore, I will use the Power of a Product Property, which states to find the power of a product, find the power of each factor and multiply Solution: (-2w) 2 = (-2 ● w) 2 = (-2) 2 ● w 2 = 4w 2 Caution: It is expected that you know -2 2 = (-2)●(-2) = +4

19 Example #8 – (2w) 2 When I analyze this expression, I see that I need to find the power of a product Therefore, I will use the Power of a Product Property, which states to find the power of a product, find the power of each factor and multiply Solution: – (2w) 2 = – (2 ● w) 2 = – (2 2 ● w 2 ) = – 4w 2 Caution: In this example the negative sign is outside the brackets. It does not mean that the 2 inside the parenthesis is negative!

20 Using all 3 properties Ok…now that we have looked at each property individually… let’s apply what we have learned and look at simplifying an expression that contains all 3 properties Again, the key here is to analyze the expression first…

21 Example #9 Simplify (4x 2 y) 3 ● x 5 I see that I have a power of a product in this expression (4x 2 y) 3 Let’s simplify that first by applying the exponent 3 to each term within the parenthesis (4x 2 y) 3 ● x 5 = 4 3 ●(x 2 ) 3 ● y 3 ● x 5 I now see that I have a power of a power in this expression (x 2 ) 3 Let’s simplify that next by multiplying the exponents = 4 3 ●(x 2 ) 3 ● y 3 ● x 5 = 4 3 ● x 6 ● y 3 ● x 5

22 Example #9 (Continued) = 4 3 ● x 6 ● y 3 ● x 5 I now see that I have x 6 and x 5, so I will use the product of powers property which states if the base is the same add the exponents. Which looks like this: = 4 3 ● x 11 ● y 3 All that’s left to do is simplify the term 4 3 = 64 ● x 11 ● y 3 = 64x 11 y 3

23 Your Turn Simplify the expressions 1. c ● c ● c 2. x 4 ● x 5 3. (4 3 ) 3 4. (y 4 ) 5 5. (2m 2 ) 3

24 Your Turn Simplify the expressions 6. (x 3 y 5 ) 4 7. [(2x + 3) 3 ] 2 8. (3b) 3 ● b 9. (abc 2 ) 3 (a 2 b) 2 10. –(r 2 st 3 ) 2 (s 4 t) 3

25 Your Turn Solutions 1. c 3 2. x 9 3. 4 9 or 262,144 4. y 20 5. 8m 6 6. x 12 y 20 7. (2x + 3) 6 8. 3 3 B 4 or 27b 4 9. a 7 b 5 c 6 10. -r 4 s 14 t 9

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