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Apply the power of a product property to a monomial algebraic expression

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Presentation on theme: "Apply the power of a product property to a monomial algebraic expression"— Presentation transcript:

1 Apply the power of a product property to a monomial algebraic expression

2 Apply the power of a product property to a monomial algebraic expression

3 Apply the power of a product property to a monomial algebraic expression

4 Apply the power of a quotient property to monomial algebraic expressions

5 Apply the power of a quotient property to monomial algebraic expressions

6 Apply the power of a quotient property to monomial algebraic expressions

7 Apply the power of a power property to a monomial numerical expression

8 Apply the power of a power property to a monomial numerical expression

9 Apply the power of a power property to a monomial numerical expression

10 How Do we Multiply numbers in Scientific Notation?
Scientific Notation is based on powers of the base number 10. The number 123,000,000,000 in scientific notation is written as : The first number 1.23 is called the coefficient. - It must be greater than or equal to 1 and less than 10. The second number is called the base . - It must always be 10 in scientific notation. The base number 10 is always written in exponent form. In the number 1.23 x 1011 the number 11 is referred to as the exponent or power of ten x 10 14

11 Rules for Multiplication in Scientific Notation
Multiply the coefficients 2) Add the exponents (base 10 remains) Example 1: (3 x 104)(2x 105) = 6 x 109 What happens if the coefficient is more than 10 when using scientific notation? Example 2: (5 x 10 3) (6x 103) = 30. x 106 While the value is correct it is not correctly written in scientific notation, since the coefficient is not between 1 and 10. We then must move the decimal point over to the left until the coefficient is between 1 and 10. For each place we move the decimal over the exponent will be raised 1 power of ten. 30.x106 = 3.0 x 107 in scientific notation. Example 3: (2.2 x 10 4)(7.1x 10 5) = x now the decimal must be moved two places over and the exponent is raised by 2. Therefore the value in scientific notation is: 1.05 x 10 14

12 Scientific notation, multiply and divide

13 Scientific notation, multiply and divide

14 Rules for Multiplication in Scientific Notation
Example 3: (2.2 x 10 4)(7.1x 10 5) = x 10 12 The decimal must be moved two places over and the exponent is raised by 2. Therefore the value in scientific notation is: 1.05 x 10 14

15 Rules for Multiplication in Scientific Notation
What happens if the coefficient is more than 10 when using scientific notation? Example 2: (5 x 10 3) (6x 103) = 30. x 106 While the value is correct it is not correctly written in scientific notation, since the coefficient is not between 1 and 10. We then must move the decimal point over to the left until the coefficient is between 1 and 10. For each place we move the decimal over the exponent will be raised 1 power of ten. 30.x106 = 3.0 x 107 in scientific notation. Example 3: (2.2 x 10 4)(7.1x 10 5) = x now the decimal must be moved two places over and the exponent is raised by 2. Therefore the value in scientific notation is: 1.05 x 10 14

16 Rules for Multiplication in Scientific Notation
Example 3: (2.2 x 10 4)(7.1x 10 5)

17 Rules for Multiplication in Scientific Notation
Example 3: (2.2 x 10 4)(7.1x 10 5) = x 10 12

18 Scientific notation, multiply and divide

19 Scientific notation, multiply and divide

20 Scientific notation, multiply and divide

21 Scientific notation, multiply and divide

22 Scientific notation, multiply and divide

23 Scientific notation, multiply and divide

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