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Literal Equations. Let’s begin by thinking about numerical equations… Here are two numerical equations that uses the same values. 15 = 12 + 3 12 = 15.

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Presentation on theme: "Literal Equations. Let’s begin by thinking about numerical equations… Here are two numerical equations that uses the same values. 15 = 12 + 3 12 = 15."— Presentation transcript:

1 Literal Equations

2 Let’s begin by thinking about numerical equations… Here are two numerical equations that uses the same values. 15 = 12 + 3 12 = 15 – 3 Notice one shows what 15 equals “in terms of” 12 and 3. The other one shows what 12 equals “in terms of” 15 and 3. Could you write an equation that shows what 3 equals “in terms of” 15 and 12? Notice: you used “inverse operations” to rewrite the equations & maintain equality.

3 Now, let’s think about equations with one variable…

4 So - What are literal equations? BASICALLY – LITERAL EQUATIONS ARE LIKE ANY OTHER EQUATION THAT SHOWS HOW QUANTITIES ARE EQUAL. WHAT MAKES LITERAL EQUATIONS SPECIAL IS THAT THEY USE MULTIPLE VARIABLES INSTEAD OF JUST ONE! WE WILL STILL REARRANGE THE EQUATIONS USING INVERSE OPERATIONS.

5 How to read the instructions for literal equations… Sometimes the problem will state: “Write the equation in terms of ___” Sometimes the problem will state: “Solve _______ for _____” Sometimes the problem will state: “Solve for the designated variable”

6 No matter how it is presented… Our goal is to get the indicated variable alone on the left side of the equal sign.

7 Let’s try it… Example 1: Solve for “b”: a + b = 12 STEPS: 1.Highlight the term with the designated variable. 2.Use inverse operations.

8 CHECK IT by substituting values Original equation a + b = 12 Let’s choose a = 3. That would mean b = 9. Re-arranged equation b = 12 - a Replace those same values a = 3 and b = 9 into this “new” equation. 9 = 12 – 3 9 = 9 *If we had not solved this correctly, these numbers would not work!

9 Let’s try it… Example 2 Solve for “p”: m = 3n + 2p STEPS: 1.Highlight the term with the designated variable. 2.Use inverse operations.

10 CHECK IT by substituting values Original equation m = 3n + 2p Let’s choose n = 7 and p = 5. That would mean m = 3(7) + 2(5) or m = 31 Re-arranged equation

11 Let’s try it… Example 3 Write equation in terms of “w”: V = lwh STEPS: 1.Highlight the term with the designated variable. 2.Use inverse operations.

12 CHECK IT by substituting values Original equation V = lwh Re-arranged equation

13 Let’s try it… Example 4 Write equation in terms of “w”: P = 2(l+w) STEPS: 1.Highlight the term with the designated variable. 2.Use inverse operations.

14 CHECK IT by substituting values Original equation P = 2(l + w) Re-arranged equation

15 Now let’s try some together… Worksheet from Illustrative Mathematics.

16 Application Rectangle task from Cpalms

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