Multiplication Properties of Exponents

Slides:



Advertisements
Similar presentations
Algebraic Expressions and Formulas
Advertisements

Simplifying a Variable Expression
Warm Up Evaluate b 2 for b = 4 4. n 2 r for n = 3 and r =
Exponents Lesson 2-8.
Bell Ringer Solve. 1. 5x + 18 = -3x – 14
PRE-ALGEBRA. Lesson 4-7 Warm-Up PRE-ALGEBRA How do you multiply numbers with the same base? How do you multiply powers in algebraic expressions? Rule:
Lesson 7-4 Warm-Up.
1.2 – Evaluate and Simplify Algebraic Expressions A numerical expression consists of numbers, operations, and grouping symbols. An expression formed by.
Lesson 1 MULTIPLYING MONOMIALS. What are we going to do…  Multiply monomials.  Simplify expressions involving powers of monomials.
Lesson 8.1 Apply Exponent Properties Involving Products After today’s lesson, you should be able to use properties of exponents involving products to simplify.
I can use the exponent rules to simplify exponential expressions.
WARM UP 3 SIMPLIFY THE EXPRESSION ● (2 3 ) 2.
Multiplying and Dividing Monomials 4.3 Monomial: An expression that is either a: (1) numeral or constant, ex : 5 (2)a v ariable, ex: x (3)or a product.
Powers of Products and Quotients (5-9). Powers of Products and Quotients (5-9)
Exponents.
8-1 Multiplying Monomials This presentation was created following the Fair Use Guidelines for Educational Multimedia. Certain materials are included under.
Multiplying and Factoring
Chapter 8.1.  Lesson Objective: NCSCOS 1.01 – Write the equivalent forms of algebraic expressions to solve problems  Students will know how to apply.
Multiplication of Exponents Notes
More Multiplication Properties of Exponents
Chapter 8 - Exponents Multiplication Properties of Exponents.
6.1.1 – Properties of Exponents. We worked with combining/multiply like terms, mostly in single terms Example. Simplify the following expressions. 1)
8.3 – Multiplying Exponents
Holt Algebra Simplifying Expressions Use the Commutative, Associative, and Distributive Properties to simplify expressions. Combine like terms. Objectives.
The Distributive Property 1-5 Objective: Students will use the Distributive Property to evaluate expressions and to simplify expressions. S. Calahan 2008.
The Distributive Property Chapter 1.6. Review multiplication.
Multiplication Properties of Exponents. To multiply two powers that have the same base, you ADD the exponents. OR.
Warm Up What is each expression written as a single power?
5-1 Monomials Objectives Multiply and divide monomials
Monomials Multiplying Monomials and Raising Monomials to Powers.
Define and Use Zero and Negative Exponents February 24, 2014 Pages
7-1 Integer Exponents 7-2 Powers of 10 and Scientific Notation 7-3 Multiplication Properties of Exponents 7-4 Division Properties of Exponents 7-5 Fractional.
(have students make a chart of 4 x 11
LESSON 4-7 EXPONENTS & MULTIPLYING. When we multiply terms with exponents  ADD exponents of like variables.
AIMS Math Prep Jan 9-20 Evaluating expressions, simplifying expressions, compound interest formula.
Multiplication Properties of Exponents Lesson 4.1.
Polynomials Unit-A-SSE.3c
Multiplying with exponents
Chapter 1, Lesson 1A Pages 25-28
Looking Back at Exponents
7-1 Multiplication Properties of Exponents
8-2 Multiplying Polynomials
Aim: What are the product and power rules of exponents?
The number of times a number or expression (called a base) is used as a factor of repeated multiplication. Also called the power. 5⁴= 5 X 5 X 5 X 5 = 625.
Section 5.1 The Rules of Exponents.
Warm Up 8/13/09 Simplify – (8 + 3)
Warm Up Write each expression using an exponent • 2 • 2
Lesson 2 Introductory Algebra Powers and Exponents.
Division Properties of Exponents
or write out factors in expanded form.
SIMPLIFY THE EXPRESSION
3 WARM UP EVALUATING NUMERICAL EXPRESSIONS –
Multiplication Properties of Exponents
Multiplying and Factoring
Lesson 4.5 Rules of Exponents
Objective Use multiplication properties of exponents to evaluate and simplify expressions.
TO MULTIPLY POWERS HAVING THE SAME BASE
Multiplication Properties of Exponents
Chapter 4-2 Power and Exponents
Multiplication Properties of Exponents
ADD exponents or write out factors in expanded form.
7.1 Multiplying Monomials
7.4 Properties of Exponents
Set Up Vocabulary! FRONT BACK 1) Variable 9) Distributive Property
Goal: The learner will find equivalent fractions.
Multiplication properties of Exponents
Multiplication Properties of Exponents
Distributive Property
Warm Up Simplify      20  2 3.
Warm Up Simplify: 5(b+4) 2)-3(2x+5) 3)4(-8-3q) 4)- 6(2b-7)
Presentation transcript:

Multiplication Properties of Exponents Lesson 4.1 Multiplication Properties of Exponents

Warm-Up Find the value of each. 42 16 53 (2 − 9)2 125 3(2 + 4)2 + 12 49 109

Multiplication Properties of Exponents Lesson 4.1 Multiplication Properties of Exponents Simplify expressions involving multiplication using properties of exponents.

Powers, Bases and Exponents 34 = 3  3  3  3 Exponent Base Expanded Form Power Read as “3 to the 4th power”

Vocabulary Power An expression such as xa which consists of two parts, the base (x) and the exponent (a). Base The base of the power is the repeated factor. In xa, x is the base. Exponent In xa, a is the exponent. The exponent shows the number of times the factor (x) is repeated. Squared A term raised to the power of 2. Cubed A term raised to the power of 3.

Review Use a rule to write the following as an equivalent expression. a. 53 • 54 b. 42 • 48 c. x3 • x2

Write each of the following expressions as a single term. b.

Multiplication Properties of Exponents Product of Powers To multiply two powers with the same base, add the exponents. Power of a Power To find the power of a power, multiply the exponents. Power of a Product To find the power of a product, find the power of each factor and multiply.

Example 1 Simplify the following. a. y3x2y6x Group like variables together. Add exponents with the same base.

Example 1 Continued… Simplify the following. b. (b3w2)4 Distribute the exponent to each base. Multiply exponents.

Example 1 Continued… Simplify the following. c. (5p4)(2p3) Group like values together. Multiply coefficients. Add exponents with the same base.

Good to Know! A simplified expression should have:  each base appear exactly once,  no powers to powers,  no numeric values with powers, and  fractions written in simplest form.

Example 2 Simplify the following. a. 6x2y4z3 ∙ 3x5z2 Group like terms together. Multiply coefficients. Add exponents with the same base.

Example 2 Continued… Simplify the following. b. (4m3w)2(5m2w2)3 Distribute the exponent to each base. Evaluate coefficients and multiply exponents. Multiply coefficients. Add exponents with the same base. 42(m3)2(w)2 ∙53(m2)3(w2)3 16m6w2 ∙125m6w6 (16 ∙ 125) ∙ m6m6w2w6 2000 m12w8

Exit Problems Simplify. 1. y4y6 2. (p3)2 3. (5w)2 4. (4x5y)(3x2y2) 5. (2x2)4(3x3)2 y10 p6 25w2 12x7y3 144x14