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Sect. 1.3 Solving Equations  Equivalent Equations  Addition & Multiplication Principles  Combining Like Terms  Types of Equations  But first: Awards,

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Presentation on theme: "Sect. 1.3 Solving Equations  Equivalent Equations  Addition & Multiplication Principles  Combining Like Terms  Types of Equations  But first: Awards,"— Presentation transcript:

1 Sect. 1.3 Solving Equations  Equivalent Equations  Addition & Multiplication Principles  Combining Like Terms  Types of Equations  But first: Awards, HW Review, and Play ? 11.3

2 But, Before we go on… Let’s play Name That Law! a) x + 5 + y = x + y + 5  Commutative Addition … COM + b) 3a + 6 = 3(a + 2)  Distributive … DIST c) 7x(1 / x) = 7  Reciprocals Multiplication … RECIP x d) (x + 5) + y = x + (5 + y)  Associative Addition … ASSOC + e) (y – 2)(3x)(y + 2) = (y – 2)(y + 2)(3x)  Commutative Multiplication … COM x f) 4(a + 2b) = 8b + 4a  COM, then DIST or DIST, then COM 21.3

3 Checking for Equivalent Equations A Solution is a Replacement Value that makes an equation True 31.3

4 Two Keys for Solving an Equation in One Variable  We need better techniques than guessing solutions  If we Add the same number to both sides of an equation, it will still have the original solution  If we Multiply both sides of an equation by the same non-0 number, it will still have the original solution 41.3

5 An Example of using Horizontal Technique for Applying the Addition Principle 51.3

6 Using the Vertical Technique to Solve the Same Equation 61.3

7 Using the Vertical Technique can Save Steps in more complex equations 71.3

8 An Example of Applying the Multiplication Principle 81.3

9 Combining Like Terms  A Term is the product of a coefficient and variable(s). Examples: 9x -2x 2 y 11 -p  Like Terms have identical variable parts Combine by adding their coefficients Example: 3xy + 11xy = (3+11)xy = 14xy Example: -2p + 6p – p = (-2+6-1)p = 3p Example: 4xyz + 6xy can’t be combined 91.3

10 Combining a Simple Expression 101.3

11 Simplify An Expression 111.3

12 The Opposite of an Expression 121.3

13 Another “Negative” Example 131.3

14 Connecting Concepts: Equations vs. Expressions 141.3

15 Solving Using Both Principles ( First the Addition Principle, then Multiplication) 151.3

16  We have been solving Linear Equations  A linear equation is one that can be reduced to ax = b (a ≠ 0 and x is any variable to the 1 st power) Don’t rush to solve them in your head Work neatly, making each step result in an equivalent equation  Every linear equation will be in one of 3 categories: Conditional – it has only one value as a solution (2x = 4) Contradiction – no value will be a solution (x = x + 1) Identity – every value will make the equation true (x = x) Types of Linear Equations Identity – Contradiction - Conditional 161.3

17 Solve: Is it an identity, contradiction, or a conditional equation? 171.3

18 What’s Next?  1.4 Introduction to Problem Solving 1.4 181.3

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