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HW: Finish HPC Benchmark 1 Review
Warm-up: Expand: (x + y)3 HW: Finish HPC Benchmark 1 Review
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Objective: Use Pascals Triangle and the Binomial Theorem to expand binomials to higher degrees.
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9.5 The Binomial Theorem Let’s look at the expansion of (x + y)n
(x + y)1 = x + y (x + y)2 = x2 +2xy + y2 (x + y)3 = x3 + 3x2y + 3xy2 + y3 (x + y)4 = x4 + 4x3y + 6x2y2 + 4xy3 + y4 Expanding a binomial using Pascal’s Triangle 1 Pascal’s Triangle Write the next row.
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Expand (x + 3)4 From Pascal’s triangle write down the 4th row. These numbers are the same numbers that are the coefficients of the binomial expansion. The expansion of (a + b)4 is: 1a4b0 + 4a3b1 + 6a2b2 + 4a1b3 + 1a0b4 Notice that the exponents always add up to 4 with the a’s going in descending order and the b’s in ascending order. Now substitute x in for a and 3 in for b.
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1a4b0 + 4a3b1 + 6a2b2 + 4a1b3 + 1a0b4 x4 + 4x3(3)1 + 6x2(3)2 + 4x(3)3 + 34 This simplifies to x4 + 12x3 + 54x x + 81 Expand (x – 2y)4 This time substitute x in for a and -2y for b. Use ( ). x4 + 4x3(-2y)1 + 6x2(-2y)2 + 4x(-2y)3 + (-2y)4 The final answer is: x4 – 8x3y + 24x2y2 – 32xy3 + 16y4
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The Binomial Theorem In the expansion of (x + y)n (x + y)n = xn + nxn-1y + … + nCmxn-mym + … +nxyn-1 + yn the coefficient of xn-mym is given by
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Find the following binomial coefficients.
28 10C3 = 120 7C3 = 35 7C4 = 35
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= 55,427,328 a7b5 Find the 6th term in the expansion of (3a + 2b)12
Using the Binomial Theorem, let x = 3a and y = 2b and note that in the 6th term, the exponent of y is m = 5 and the exponent of x is n – m = 12 – 5 = 7. Consequently, the 6th term of the expansion is: = 55,427,328 a7b5
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To expand differences you alternate signs Ex)
(x – y)3 = x3 – 3x2y + 3xy2 – y3 (x – y)4 = x4 – 4x3y + 6x2y2 – 4xy3 + y4
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DCR GROUPS! 1) Expand (2x – 3)5
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Sneedlegrit: Find: 9C3 = HW: Finish HPC Benchmark 1 Review
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