the line y = 3. Find the volume of the solid of revolution obtained. 65. Express in partial fractions. Hence, or otherwise, solve the differential equation (1+x)(1+3x) dy 2(y+2) given that y =-1 when x = 0. dx (1+x)(1+3x)' 66. The table below shows values of a continuous variable y corresponding to given values of x.
the line y = 3. Find the volume of the solid of revolution obtained. 65. Express in partial fractions. Hence, or otherwise, solve the differential equation (1+x)(1+3x) dy 2(y+2) given that y =-1 when x = 0. dx (1+x)(1+3x)' 66. The table below shows values of a continuous variable y corresponding to given values of x.
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter10: Sequences, Series, And Probability
Section10.6: Permutations
Problem 47E
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Solve Q64, 65 explaining detailly each step
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