To a first approximation, a tennis ball is a sphere. The volume of a sphere is V = 4/3 π r3, where r is the radius of the sphere. So measure the diameter of the tennis ball, divide by 2 to get the radius, and then apply the formula above. You could also measure the volume of a tennis ball by measuring the volume of water that it displaces.
A standard tennis ball weighs approximately 58 to 60 grams. In terms of volume, a tennis ball has a diameter of about 6.7 centimeters, which translates to a volume of roughly 100 cubic centimeters. Given the weight and volume, the density of a tennis ball is around 0.58 to 0.6 grams per cubic centimeter.
Volume = 4/3*pi*radius3
I think it is 4.2 cubic inches
A tree, a tennis ball, a tiger, you and ... me.
It is not possible to determine the number of tennis balls without knowing the volume of a single tennis ball. Once you know the volume of one tennis ball, you can calculate the number of balls needed to fill 55444 cubic feet.
Volume formula: 4/3 x pi x r ^3 Volume of the table tennis ball = 4/3 x 3.1416 x (2 cm)^3 = 33.5 cm^3 = 33.5 mL
The tennis ball. But do you know why? The anser to that is in the relationship between the fomula for a shere's volum and that of it's surface area. Area is a radius squared function whereas volume is a radius cubed function.
241920 in^3 == typical minivan cargo volume (V) 17.576 in^3 == volume of a cube surrounding a tennis ball (v) 13764 == V/v = number of tennis ball sized cubes to fit into the cargo space of a minivan
A tennis ball is a spherical shape. Surface area of a sphere in square units = 4*pi*radius2 Volume of a sphere in cubic units = 4/3*pi*radius3
It has a volume of exactly one milliliter. It also has a volume of one cubic centimeter.
The milliliter is a unit of volume. Volume can only be positive, thus the milliliter can be positive only, too.