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II. Use the Remainder Theorem to find the remainder when each polynomial is divided by the correspondi binomial. 11. 2x³ + 8x2-3x, 10 +8; x-2 13. x²-04 14. 4x36x²-x+x+3 +2 TX -0, x + 1 JAJA-U, 2x=1 ZX-9;X-1 18. 3x³ + 12x² + 3x + 12; x-4 19. 4x³ +57x² - 4x - 3; x + 3 20. 2x³+4x²+x-8; x+2

II. Use the Remainder Theorem to find the remainder when each polynomial is divided by the correspondi binomial. 11. 2x³ + 8x2-3x, 10 +8; x-2 13. x²-04 14. 4x36x²-x+x+3 +2 TX -0, x + 1 JAJA-U, 2x=1 ZX-9;X-1 18. 3x³ + 12x² + 3x + 12; x-4 19. 4x³ +57x² - 4x - 3; x + 3 20. 2x³+4x²+x-8; x+2

Advanced Engineering Mathematics
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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NOTE: ANSWER LAST 3 ITEMS, 18-20 ONLY. USE REMAINDER THEOREM.
II. Use the Remainder Theorem to find the remainder when each polynomial is divided by the correspondi binomial. 11. 2x³ + 8x2-3x, 10 +8; x-2 13. x²-04 14. 4x36x²-x+x+3 +2 TX -0, x + 1 JAJA-U, 2x=1 ZX-9;X-1 18. 3x³ + 12x² + 3x + 12; x-4 19. 4x³ +57x² - 4x - 3; x+3 20. 2x³+4x²+x-8; x+2
Transcribed Image Text:II. Use the Remainder Theorem to find the remainder when each polynomial is divided by the correspondi binomial. 11. 2x³ + 8x2-3x, 10 +8; x-2 13. x²-04 14. 4x36x²-x+x+3 +2 TX -0, x + 1 JAJA-U, 2x=1 ZX-9;X-1 18. 3x³ + 12x² + 3x + 12; x-4 19. 4x³ +57x² - 4x - 3; x+3 20. 2x³+4x²+x-8; x+2
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