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The base of the solid is the disc x2+y2=1. The cross-section by planes perpendicular to the y-axis between y=-1 and y=1 are isosceles right triangles with 1 leg in the disc. Find the volume of the solid.
I did the problem, but I am not sure if I did it correctly, and if I did I really just need the problem explained. I understand most of it, I think:
A(y)=\frac{1}{2}bh=(\frac{1}{2})(2\sqrt{1-y^2})(2\sqrt{1-y^2})=2(1-y^2)
V_s=\int_{-1}^1A(y)dy=2\int_{-1}^1(1-y^2)dy=2(y-\frac{1}{3}y^3]_{-1}^1)=2(\frac{4}{3})=\frac{8}{3}
Thanks
I did the problem, but I am not sure if I did it correctly, and if I did I really just need the problem explained. I understand most of it, I think:
A(y)=\frac{1}{2}bh=(\frac{1}{2})(2\sqrt{1-y^2})(2\sqrt{1-y^2})=2(1-y^2)
V_s=\int_{-1}^1A(y)dy=2\int_{-1}^1(1-y^2)dy=2(y-\frac{1}{3}y^3]_{-1}^1)=2(\frac{4}{3})=\frac{8}{3}
Thanks