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31 May, 06:40

For every corresponding pair of cross sections, the area of the cross section of a sphere with radius r is equal to the area of the cross section of a cylinder with radius? and height 2r minus the volume of two cones, each with a radius and height of r. A cross section of the sphere is?, and a cross section of the cylinder minus the cones, taken parallel to the base of cylinder, is?. the volume of the cylinder with radius r and height 2r is?, and the volume of each cone with radius r and height r is 1/3 pie r^3. so the volume of the cylinder minus the two cones is?. Therefore, the volume of the cylinder is 4/3pie r^3 by cavalieri's principle.

(fill in options are: r/2 - r - 2r - an annulus - a circle - 1/3pier^3 - 2/3pier^3 - 4/3pier^3 - 5/3pier^3 - 2pier^3 - 4pier^3)

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Answers (1)
  1. 31 May, 09:59
    0
    1. r

    2. a circle

    3. an annulus

    4. _2pier³_

    5. _4/3pier³_

    Step-by-step explanation:

    The paragraph representing Cavalieri's principle is filled as follows;

    "For every corresponding pair of cross sections, the area of the cross section of a sphere with radius r is equal to the area of the cross section of a cylinder with radius _r_ and height 2r minus the volume of two cones, each with a radius and height of r. A cross section of the sphere is _a circle_, and a cross section of the cylinder minus the cones, taken parallel to the base of cylinder, is _an annulus_. the volume of the cylinder with radius r and height 2r is _2pier³_, and the volume of each cone with radius r and height r is 1/3 pie r^3. so the volume of the cylinder minus the two cones is _4/3pier³_ Therefore, the volume of the sphere is 4/3pie r^3 by Cavalieri's principle.
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