Finding volume by rotating cosx and sinx about y=-1, x in [0, pi/4)

Bairaxx

Bairaxx

Answered question

2022-10-21

Finding volume by rotating cos x and sin x about y = 1, x [ 0 , π 4 )
I'm working on a problem that is asking for the volume of y = cos x when rotated about the line y = 1, with a restricted domain of [ 0 , π 2 ] . The range is [0, 2].
There's a problem I'm working on that is asking for the volume of y = cos x and y = sin x when rotated about line y = 1 with a domain of [ 0 , π 4 )
I don't even know where to begin. First off; which method would be most effective in this case? A shell, washer or disc?

Answer & Explanation

honotMornne

honotMornne

Beginner2022-10-22Added 12 answers

Step 1
I assume that for the first problem, you are rotating the region below y = cos x, above the x-axis, from x = 0 to x = π 2 .
Both Slicing and the Method of Shells work. Perhaps Slicing is a little easier.
Draw a picture. Make a slice perpendicular to th x-axis "at" x.
The cross-section is a "washer," that is, a circle with a circular hole in it. The radius of the outer circle is 1, and the radius of the inner circle is 1 y, that is, 1 cos x. Thus the area A(x) of cross-section is given by
A ( x ) = π ( 1 2 ( 1 cos x ) 2 ) .
Step 2
It follows that the volume of the solid is
0 π / 2 π ( 1 2 ( 1 cos x ) 2 ) d x .
Before integrating, it will be useful to simplify the integrand. You will need, among other things, to integrate cos 2 x. There are several ways to do it. One standard one is to use the fact that cos 2 x = cos ( 2 x ) + 1 2 .
The second problem has a very similar structure.

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