A Bowling ball and a piece of paper will fall at the same rate on the Moon.
This is because gravity pulls at a constant rate. The force of gravity depends on the mass of the Moon, which is constant, and not on the mass of each object falling.
On Earth, the piece of paper will fall much slower than the bowling ball because of air resistance. Because there is no air on the Moon, both objects will fall at the same rate.
Type your answer here.. Because of the oil
because there if speed is constant than ball never come back to earth hence speed of ball is not constant
Friction
the golf ball stopped but the bowling ball keep rolling due to their different size and weight.as we know bowling ball is bigger in size as well as weight so it will face more fictin force and stops early as compare to golf ball when they collide and at the same time bowling ball poshes the golf ball back.so the golf ball stops and the golf ball keeps rolling.
The bowling ball because it has more mass
The bowling ball is harder to stop because it has a greater mass, and therefore a greater momentum. But the answer is that the bowling ball has a greater mass.
momentum=velocity x mass say a golf ball weighs 1 pound and the bowling ball weighs 5 pounds the golf ball would have to be moving 5 times faster than the bowling ball to have the same momentum
catching the bowling ball will be the safest because in order for the KE to be the same the speed of the bowling ball must be less in order to even out the equations.
Rolled? Thrown? How heavy of a bowling ball? And the speed of a ball depends on how hard a person throws it. It is hard to answer such a general question.
... What is the speed of the ball? Distance = 17.5 m Time = 2.6 sec Speed (of sound) = 340 m/sec Speed (of ball) = ? Typically Speed = Distance/time (which means 17.5/2.6. But here we also have to calculate the speed of the sound of the ball traveling when the ball hits the pins till it reaches the ears of the bowler) Time (of sound) = Distance/Speed (of sound) = 17.5/340 = 0.0515 sec Time (of ball) = 2.6 - 0.0515 =2.5485 sec Speed (of ball) = Distance/Time (of ball) = 17.5/2.5484 = 6.87 m/sec
there is more momentum and it depends on what your arm swing speed is when you throw a bowling ball because on your follow through there is more momentum going with a heiver ball rather than a lighter ball
A ball rolling at a constant speed at the same rate of speed on a still surface.
a bowling ball