the smaller the mass the farther the roll
Yes. The force applied by the catapult will cause an acceleration on the tennis ball that is inversely proportional to the mass of the tennis ball.
Tennis balls are lighter than cricket balls. Therefore less mass. If a tennis ball travels at the same speed its momentum (mass x velocity) is lower. Therefore less momentum an easier to stop. Short answer, less mass and same speed means less momentum
Ask your mom because mine were pretty big, and I think they were moving pretty fast and far, so ask her for information. ;) And can you please tell her that i left the money for me and my friends under the pillow. thanks
it depends on the size and weight of the ball and if its flat tile or smooth...and what the ball is made of.
Dirt , assuming it is flat and dry . The answer depends upon the velocity of the ball and what resistance there is in either the dirt or grass .
the smaller the mass the farther the roll
No because mass doesn't means how it affect far it rolls
yes
how does increasing the height of a ramp affect how far a ball rolls down the ramp
Mass Effect
Yes it does as the type of ball effects how it interects with the world. That is how it reacts with the surface it is on or how it reacts with the air around it.
Yes , the affect of the ball does matter of how far it goes.
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.
No, it has no effect.
Could be a top or a chunk. A thin wouldn't go too far in the air but usually rolls a long way.
The last answer was totally wrong because the only reason why a basket-ball goes further than a ping-pong ball is because of the gas and air pressure inside the ping-pong ball is a lot lighter and is why they use it for ping-pong. But to answer your question, no it doesn't because of newtons second law states F=MA (force equals mass times acceleration). You could rearrange this equation to find out for your self as well.
The last answer was totally wrong because the only reason why a basket-ball goes further than a ping-pong ball is because of the gas and air pressure inside the ping-pong ball is a lot lighter and is why they use it for ping-pong. But to answer your question, no it doesn't because of newtons second law states F=MA (force equals mass times acceleration). You could rearrange this equation to find out for your self as well.