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= (7y2 + 5y2) + [2y + (–4y) + [(– 3) + 2] Group like terms.
Add Polynomials A. Find (7y2 + 2y – 3) + (2 – 4y + 5y2). Horizontal Method (7y2 + 2y – 3) + (2 – 4y + 5y2) = (7y2 + 5y2) + [2y + (–4y) + [(– 3) + 2] Group like terms. = 12y2 – 2y – 1 Combine like terms. Example 1
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Notice that terms are in descending order with like terms aligned.
Add Polynomials Vertical Method 7y2 + 2y – 3 (+) 5y2 – 4y + 2 Notice that terms are in descending order with like terms aligned. 12y2 – 2y – 1 Answer: 12y2 – 2y – 1 Example 1
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= [4x2 + (–7x2)] + [(–2x) + 3x] + [7 + (–9)] Group like terms.
Add Polynomials B. Find (4x2 – 2x + 7) + (3x – 7x2 – 9). Horizontal Method (4x2 – 2x + 7) + (3x – 7x2 – 9) = [4x2 + (–7x2)] + [(–2x) + 3x] + [7 + (–9)] Group like terms. = –3x2 + x – 2 Combine like terms. Example 1
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Align and combine like terms.
Add Polynomials Vertical Method 4x2 – 2x + 7 (+) –7x2 – 3x – 9 –3x2 + x – 2 Align and combine like terms. Answer: –3x2 + x – 2 Example 1
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A B C D A. Find (3x2 + 2x – 1) + (–5x2 + 3x + 4). A. –2x2 + 5x + 3
B. 8x2 + 6x – 4 C. 2x2 + 5x + 4 D. –15x2 + 6x – 4 A B C D Example 1
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A B C D B. Find (4x3 + 2x2 – x + 2) + (3x2 + 4x – 8). A. 5x2 + 3x – 6
B. 4x3 + 5x2 + 3x – 6 C. 7x3 + 5x2 + 3x – 6 D. 7x3 + 6x2 + 3x – 6 A B C D Example 1
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A. Find (6y2 + 8y4 – 5y) – (9y4 – 7y + 2y2).
Subtract Polynomials A. Find (6y2 + 8y4 – 5y) – (9y4 – 7y + 2y2). Horizontal Method Subtract 9y4 – 7y + 2y2 by adding its additive inverse. (6y2 + 8y4 – 5y) – (9y4 – 7y + 2y2) = (6y2 + 8y4 – 5y) + (–9y4 + 7y – 2y2) = [8y4 + (–9y4)] + [6y2 + (–2y2)] + (–5y + 7y) = –y4 + 4y2 + 2y Example 2
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Subtract Polynomials Vertical Method Align like terms in columns and subtract by adding the additive inverse. 8y4 + 6y2 – 5y (–) 9y4 + 2y2 – 7y 8y4 + 6y2– 5y (+) –9y4 – 2y2 + 7y –y4 + 4y2 + 2y Add the opposite. Answer: –y4 + 4y2 + 2y Example 2
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Subtract 4n4 – 3 + 5n2 by adding the additive inverse.
Subtract Polynomials Find (6n2 + 11n3 + 2n) – (4n – 3 + 5n2). Horizontal Method Subtract 4n4 – 3 + 5n2 by adding the additive inverse. (6n2 + 11n3 + 2n) – (4n – 9 + 5n2) = (6n2 + 11n3 + 2n) + (–4n + 3 – 5n2 ) = 11n3 + [6n2 + (–5n2)] + [2n + (–4n)] + 3 = 11n3 + n2 –2n + 3 Answer: 11n3 + n2 – 2n + 3 Example 2
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Subtract Polynomials Vertical Method Align like terms in columns and subtract by adding the additive inverse. 11n3 + 6n2 + 2n + 0 (–) 0n3 + 5n2 + 4n – 3 11n3 + 6n2 + 2n + 0 (+) 0n3 – 5n2 – 4n + 3 11n3 + n2 – 2n + 3 Add the opposite. Answer: 11n3 + n2 – 2n + 3 Example 2
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A B C D A. Find (3x3 + 2x2 – x4) – (x2 + 5x3– 2x4). A. 2x2 + 7x3 – 3x4
B. x4 – 2x3 + x2 C. x2 + 8x3 – 3x4 D. 3x4 + 2x3 + x2 A B C D Example 2
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A B C D B. Find (8y4 + 3y2 – 2) – (6y4 + 5y3 + 9). A. 2y4 – 2y2 – 11
B. 2y4 + 5y3 + 3y2 – 11 C. 2y4 – 5y3 + 3y2 – 11 D. 2y4 – 5y3 + 3y2 + 7 A B C D Example 2
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A. Write an equation that represents the sales of video games V.
Add and Subtract Polynomials A. VIDEO GAMES The total amount of toy sales T (in billions of dollars) consists of two groups: sales of video games V and sales of traditional toys R. In recent years, the sales of traditional toys and total sales could be modeled by the following equations, where n is the number of years since 2000. R = 0.46n n2 + 3n + 19 T = 0.45n n n A. Write an equation that represents the sales of video games V. Example 3
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Find an equation that models the sales of video games V.
Add and Subtract Polynomials Find an equation that models the sales of video games V. Subtract the polynomial for R from the polynomial for T. video games + traditional toys = total toy sales V + R = T V = T – R 0.46n n2 – 3n – 19 (–)0.45n n2 – 4.4n – 22.6 –0.01n n n Example 3
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Add and Subtract Polynomials
0.46n n2 – 3n – 19 (+) –0.45n3 – 1.85n n –0.01n n n + 3.6 Add the opposite. Answer: V = –0.01n n n + 3.6 Example 3
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Add and Subtract Polynomials
B. Use the equation to predict the amount of video game sales in the year 2009? The year 2009 is 2009 – 2000 or 9 years after the year Substitute 9 for n. V = –0.01(9) (9) (9) + 3.6 = – = 12.96 Answer: The amount of video game sales in 2009 will be billion dollars. Example 3
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A B C D A. 50x2 – 50x + 500 B. –50x2 – 50x + 500 C. 250x2 + 950x + 500
A. BUSINESS The profit a business makes is found by subtracting the cost to produce an item C from the amount earned in sales S. The cost to produce and the sales amount could be modeled by the following equations, where x is the number of items produced. C = 100x x – 300 S = 150x x Find an equation that models the profit. A B C D A. 50x2 – 50x + 500 B. –50x2 – 50x + 500 C. 250x x + 500 D. 50x x + 100 Example 3
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B. Use the equation 50x2 – 50x + 500 to predict the profit if 30 items are produced and sold.
Example 3
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