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The one with the greatest mass has the greatest inertia. So, it will be the bowling ball.
Bowling Ball
(Potential) energy is directly proportional to the release height.
the formulae for gravitational potential energy is =mgh,wher m=mass g=10 m/s2 and h=height.incomplete question.u should mention the height of the hill.it will be =057*10*height of the hill
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.
Bowling, curling, and tennis
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.
The bowling ball, because it's the heaviest and thus not as affected by air resistance
a bowling 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.
An alley in tennis is the area between the single's line and double's line.
tennis ten pin bowling
tennis, golf, curling, bowling
Tennis, bowling, archery.
soccer, tennis
The one with the greatest mass has the greatest inertia. So, it will be the bowling ball.
Gravity is the same rate whether it is a tennis ball or a feather dropping. Gravity is 12.3 grams per cubic centimeter in a descending pattern and is a constant.