I think it is 4.2 cubic inches
Volume = 4/3*pi*radius3
A tree, a tennis ball, a tiger, you and ... me.
A tennis ball must be between 6.25 and 6.57 cm in diameter, i.e. 3.125 and 3.285 cm radius. If we take 3.2 as the average than 137.258 cm
A tennis ball does bounce higher!!!:]] x
A heated tennis ball bounces higher because the hot air inside the ball is lighter than the air around the ball therefore giving the tennis ball the ability to bounce higher.
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.
Volume = 4/3*pi*radius3
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.
A tree, a tennis ball, a tiger, you and ... me.
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
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
How many balls are in one can? Three? If so, then calculate the volume of one ball and multiply by three. That's the volume occupied by the balls. The volume of a sphere is given by the formula V = 4(Pi)r3/3. Now calculate the volume of the cylinder. Assume that its height is three times the diameter of a ball (if there are three balls in the can). Remember that the diameter is twice the radius. Also, assume that the radius of the can is equal to the radius of one ball. The volume of a cylinder is given by the formula V = (Pi)r2h. Now subtract the volume of the balls from the volume of the can.
a tennis ball
A tennis ball.
A tennis ball.
Its a fat foot ball tennis ball my balls bounce the highest