Friday, January 16, 2015

Calculus of a Single Variable, Chapter 7, 7.3, Section 7.3, Problem 6

To be able to use the shell method, a rectangular strip from the bounded plane region should be parallel to the axis of revolution. By revolving multiple rectangular strip, it forms infinite numbers of these hollow pipes or representative cylinders.
In this method, we follow the formula: V = int_a^b (length * height * thickness)
or V = int_a^b 2pi * radius*height*thickness
where:
radius (r)= distance of the rectangular strip to the axis of revolution
height (h) = length of the rectangular strip
thickness = width of the rectangular strip as dx or dy .
For the bounded region, as shown on the attached image, the rectangular strip is parallel to y-axis (axis of rotation). We can let:
r=x
h=f(x) or h=y_(above)-y_(below)
h= x^3/2-0 =x^3/2
thickness = dx
Boundary values of x from a=0 to b =3 .
Plug-in the values on V = int_a^b 2pi * radius*height*thickness, we get:
V = int_0^3 2pi*x*(x^3/2)*dx
Simplify: V = int_0^3 pi*x*(x^3)dx
Apply Law of Exponent: x^n*x^m = x^((n+m)).
V = int_0^3 pi*x*(x^3)dx
V = int_0^3 pi(x^4)dx
Apply basic integration property: intc*f(x) dx = c int f(x) dx and Power rule for integration formula : int x^n dx =x^(n+1)/(n+1) .
V = int_0^3 pi(x^4)dx
= pi* int_0^3 (x^4)dx
= pi*x^((4+1))/((4+1))|_0^3
=(pix^5)/5|_0^3
Apply the definite integral formula: int _a^b f(x) dx = F(b) - F(a) .
V =(pi(3)^5)/5 -(pi(0)^5)/5
V = (243pi)/5 -0
V =(243pi)/5 or 152.68 (approximated value)

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