How do you use the method of cylindrical shells to find the volume of the solid obtained by rotating the region bounded by #125 y = x^3# , y = 8 , x = 0 revolved about the x-axis?

1 Answer
Jim H · Steve M
Jan 23, 2017

See below

Explanation:

Here is the region:

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A representative slice taken perpendicular to the axis of rotation has volume

#int \ pi(8^2 - (x^3/5^3)^2) dx# using #VOR = int pi y^2 dx#

#x# varies from #0# to #10#, so the solid will have volume:

#piint_0^10 (64 - x^6/5^6) dx = pi[64x-x^7/(7(5^6))]_0^10#

# = pi[640 - 10^7/(7(5^6))]#

# = pi[640 - (10 * 2^6)/7]#

# = pi[640 - 640/7]#

# = pi[(7*640)/7 - 640/7]#

# = pi (6 * 640)/7#

# = (3840pi)/7#

We can also use cylindrical shells to get the same answer:

# V =int_(y=a)^(y=b)2pi \ y \ g(y) \ dy #
# \ \ =2pi int_0^8 \ y \ root(3)(125y) \ dy #
# \ \ =2pi int_0^8 5 \ y \ y^(1/3) \ dy #
# \ \ =10pi int_0^8 y^(4/3) \ dy #
# \ \ =10pi [y^(7/3)/(7/3)]_0^8 #
# \ \ =(30pi)/7 [y^(7/3)]_0^8 #
# \ \ =(30pi)/7 (128-0) #
# \ \ =(3840pi)/7 #

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