Explanation Procedure used: Procedure for Synthetic Division: 1. Write the coefficients of f ( x ) . Be certain that the powers are in descending order and that zeros are inserted for missing powers. 2. Carry down the left coefficient, then multiply it by r , and place this product under the second coefficient of the top line. 3. Add the two numbers in the second column and place the result below. Multiply this sum by r and place the product under the third coefficient of the top line. 4. Continue this process until the bottom row has as many numbers as the top row. Calculation: If 7 is zero of f ( x ) , then x − 7 is factor of f ( x ) and f ( 7 ) = 0 . Find the remainder of x 4 − 5 x 3 − 15 x 2 + 5 x + 14 as follows. If the remainder is zero when divide x 4 − 5 x 3 − 15 x 2 + 5 x + 14 by x − 7 , then 7 is zero of x 4 − 5 x 3 − 15 x 2 + 5 x + 14 . Divide the polynomial x 4 − 5 x 3 − 15 x 2 + 5 x + 14 by x − 7 as follows. The powers of x are in descending order, write down the coefficient of f ( x ) and zeros are inserted for missing powers, write 7 for the divisor x − 7 and place 7 to the right. 1 − 5 − 15 5 14 7 Carry the left coefficient 4 to the bottom line and multiply it by 7, and place the product 28 under the second coefficient − 5 of the top line

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Chapter 15.1, Problem 41E

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Whether 7 is zero of x4−5x3−15x2+5x+14 or not by using synthetic division.

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Chapter 15.1, Problem 40E

Chapter 15.1, Problem 42E

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Whether 7 is zero of x 4 − 5 x 3 − 15 x 2 + 5 x + 14 or not by using synthetic division.

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Whether 7 is zero of x4−5x3−15x2+5x+14 or not by using synthetic division.

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Chapter 15 Solutions