V = volume, R = radius, H = height, π = pi
V = πR2H
H = V/πR2
You can work the problem for yourself with that equation, keeping in mind that
1 cm3 = 1 mL
Canister holds 3 tennis balls the diameter of the balls is the same as the diameter of the cylinder 6 cm how much space in the cylinder is not taken? Since 3 tennis balls fit in the cylinder, the height of the cylinder is 3 * the diameter of a tennis ball Volume of Sphere = 4/3 * Π radius^3 Volume of Cylinder = height * Π radius^2 The diameter of a tennis ball is 6 cm The radius is 3 cm. Volume of 3 balls = 3* 4/3 * Π * radius^3 Volume of 3 balls = 3* 4/3 * Π * 3^3 Height of Cylinder = 3 * 6 cm = 18 cm Volume of cylinder = 18 * Π * 3^2 Space in the cylinder is not taken = Volume of cylinder - Volume of 3 balls Do the math, you should get 169.6 cc for the space in the cylinder is not taken.
2.6667 litres
6 times 950 liters / 150 liters = 6.33 times = 6
16 US gallons = 60 liters 16 UK gallons = 72 liters
I assume the volume is 100 cubic cm and NOT 100 cm. The volume of a cylinder is cross-sectional area * height 100 = cross sectional area * 30 so that the area of the bottom, or cross section, is 100/30 = 3.333... sq cm
The cylinder's diameter will be about 32.58m
There are an infinite number of cylinders that hold one gallon. The volume of a cylinder is a function of its height as well as its diameter. If you double the height, you double its capacity. If you double the radius, you quadruple the capacity. So, you could have a very tall, thin cylinder or a short, wide one.
Canister holds 3 tennis balls the diameter of the balls is the same as the diameter of the cylinder 6 cm how much space in the cylinder is not taken? Since 3 tennis balls fit in the cylinder, the height of the cylinder is 3 * the diameter of a tennis ball Volume of Sphere = 4/3 * Π radius^3 Volume of Cylinder = height * Π radius^2 The diameter of a tennis ball is 6 cm The radius is 3 cm. Volume of 3 balls = 3* 4/3 * Π * radius^3 Volume of 3 balls = 3* 4/3 * Π * 3^3 Height of Cylinder = 3 * 6 cm = 18 cm Volume of cylinder = 18 * Π * 3^2 Space in the cylinder is not taken = Volume of cylinder - Volume of 3 balls Do the math, you should get 169.6 cc for the space in the cylinder is not taken.
The volume of a storage cylinder which holds 2341 liters is: 82.67 cubic feet or 22.34 cubic meters.
2.6667 litres
Is this a trick question? If you have a narrow bucket that holds 60 liters than it would seem very tall but if you have a wide flat bucket that holds 60 liters, it would be a different height or how wide.
A 59.5-inch diameter cylinder holds 1,733 gallons per inch of length/height.
50 cm
It holds 3.7 qts.(3.5 liters) I have one with 85,000 miles on it.
A 24-inch diameter cylinder holds 23.5 gallons of water per foot of length/height.
It holds 7 quarts, or 6.6244706 liters.It holds 7 quarts, or 6.6244706 liters.
Length in cm x Breadth in cm x Height in cm divide by 1000 = litres