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The different amount of force is needed because some objects have more mass and weight than others for example if you have a ball of Styrofoam and a baseball the baseball has a higher density and mass so it takes more force to move the baseball than the Styrofoam.
The different amount of force is needed because some objects have more mass and weight than others for example if you have a ball of Styrofoam and a baseball the baseball has a higher density and mass so it takes more force to move the baseball than the Styrofoam.
Styrofoam is lighter than water, so it floats. In nature, heavy objects are more effected by gravity, so they are forced down.
Kinetic energy is a function of mass and velocity. Therefore, an object with more mass, such as a bowling ball, would have to go slower than an object with less mass, such as a golf ball. So, if given the same amount of kinetic energy, a bowling ball will go faster than a golf ball, because it has more mass.
The experimental setup I envision is as follows: you get a sheet of melamine, stick it in the middle of the school gym, set one end on a sawhorse to create the slope, put the two balls at the top of the slope, let go of them at the same time and measure to see which one goes farther once it gets out onto the gym floor. Right? Because of the weights of the two balls, the bowling ball will travel farther. It can store more energy from gravity.
yes
It doesn't. A tennis ball has a mass of about 57g A golf ball has a mass of about 46g The golf ball is DENSER because it has material inside it (usually rubber) but the tennis ball is full of a gas (air).
mass is sort of like the measure of an objects volume, and has no set number per substance, but density is a fixed figure. As to which object is denser, it depends what type of metal you are talking about, but most of the time metal would be more dense. As to how much mass they have, it depends how big the piece of Styrofoam is, and what type and how big the metal is.
Because a golf ball is denser. When you cut a golf ball and a table tennis ball in half, the golf ball is solid all the way through. The table tennis ball has a cavity filled with mostly air inside.
Since the lightest tenpin bowling ball is currently 6 pounds and a table tennis ball is not even an ounce, the tenpin bowling ball is heavier.
A tennis ball will bounce the highest because it is smaller. The smaller amount of mass that it has the more it will bounce and the higher it would get. For example, when you put air into a ball the more mass it builds up but, when the ball is flat it would not bounce.
The International Tennis Federation requires a tennis ball to weigh between 56 and 59.4 grams. Under the rules of Golf, a golf ball must weigh no more than 45.93 grams. So no, a golf ball does not weigh more than a tennis ball.
I believe it does. If you imagine it with a bowling ball and two tennis balls, when you roll one tennis ball into another stationary tennis ball, it rolls away, but not that far. Now repeat the same experiment with a bowling ball and a tennis ball, the result is much clearer as to which moved the stationary tennis ball more. The bowling ball did as it has a larger mass and size.
A bowling ball is heavier than a tennis ball for a number of reasons. Two of which should be obvious: The bowling ball is bigger and therefore weighs more for it has more mass. And the bowling ball is made of a denser material and is solid. A tennis ball is made out of rubber and is hollow and filled with air.
a bowling ball
It's tennis ball.
The different amount of force is needed because some objects have more mass and weight than others for example if you have a ball of Styrofoam and a baseball the baseball has a higher density and mass so it takes more force to move the baseball than the Styrofoam.