1a. There is a regular cylinder, which has a height equal to
its radius. If the radius and height are both increased by 50%, by what % does
the total volume of the cylinder increase?
1b. If the radius and height are both decreased by 10%, by
what % does the total volume of the cylinder decrease?
1c. If the radius is increased by 20% and the height is
decreased by 40%, what % of the volume of the original cylinder does the volume
of the new cylinder represent?
1d. If the radius is increased by 40% and the height is
decreased by 20%, what % of the volume of the original cylinder does the volume
of the new cylinder represent?
1e. If the height is increased by 125%, what % does the
radius need to be decreased by for the volume to remain the same?
2. If the side of a cube is increased by 50%, by what % does
the total surface area of the cube increase?
3a. If the volume of a cube increases by 72.8%, by what %
does the total surface area of the cube increase?
3b. By what % did the side length of the cube increase?
4. You have a collection of cylinders, all having a radius
of 5. The first cylinder has a height of 2, the second has a height of 4, the
third a height of 6, etc. The last cylinder has a height of 50. What is the sum
of the volumes of all the cylinders (express your answer in terms of pi)?
1b. Like the previous question: 13 - 0.93 [when it's discount/percentage decrease, you use the 100% or 1 - the discount/decrease percentage] = 0.271 = 27.1% decrease
1d. 1.42 [100% + 40% increase = 1.4] x 0.8 [100% -20% = 0.8] = 1.568 = 156.8% of the original volume
Answer key: (Each question should not take you more than 30 seconds to solve if you really understand the concepts involved.)
1a. The volume of a cylinder is πr2x h (height). The radius itself will be squared and the height stays at
constant ratio. The volume will increased thus (1.5)3 - 13 -- the original 100% of the volume = 2.375
=237.5%
1b. Like the previous question: 13 - 0.93 [when it's discount/percentage decrease, you use the 100% or 1 - the discount/decrease percentage] = 0.271 = 27.1% decrease
1c. 1.22 [100% + 20% increase = 1.2] x 0.6 [100% -40% = 0.6] = 0.864 or
86.4% of the original volume
1d. 1.42 [100% + 40% increase = 1.4] x 0.8 [100% -20% = 0.8] = 1.568 = 156.8% of the original volume
1e. When the height of a cylinder is increased 125%, the total volume is is 225% of the original cylinder, or 9/4.
Since the radius is used two times (or squared), it has to decrease 4/91/2 = 2/3 for the new cylinder to have the same volume as the old one. [9/4 times 4/9 = 1 or the original volume.]
1 - (2/3) = 1/3 = 0.3 = 33.3%
2. Surface area is 2-D so 1.52 - 1 = 1.25 = 125% increase
3a. If a volume of a cube is increased by 72.8 percent, it's 172.8% or 1.728 of the original volume. Now you are going from 3-D (volume) to 2-D (surface area). 1.7282/3 = 1.44 or 44% increase. [Don't forget to minus 1 (the original volume) since it is asking you the percentage increase.]
3b. From surface area, you can get the side increase by using 1.441/2 = 1.2, so 20% increase.
Or you can also use 1.7281/3 = 1.2; 1.2 - 1 = 20%
4. The volume of a cylinder is πr2x h . (2 + 4 + 6 + ...50) x 52π = (25 x 26) x 25π =16250π
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