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I believe, if I'm not mistaken, they are both at the equilibrium. However, if I had to say one, it's the bowling ball at rast. "Physics. The state of a body or physical system at rest or in unaccelerated motion in which the resultant of all forces acting on it is zero and the sum of all torques about any axis is zero." -- Answers.com
To come to rest, its velocity must change, therefore it will accelerate. Once it is at rest, if it remains at rest, it will no longer accelerate, i.e., its acceleration will be zero.
9.8
1 unit.
0.95 - 1.05 secs
Bowling ball rolling down the lane.
It was lost to friction between the bowling ball, the lane, and the air through whichthe ball was forced to plow on its way to the far end of the gutter. Some of it wenttoward kinetic energy of air that was pushed out of the way, and the rest of it causedsome of the floor boards in the lane to become slightly warmer.
because top hat
I believe, if I'm not mistaken, they are both at the equilibrium. However, if I had to say one, it's the bowling ball at rast. "Physics. The state of a body or physical system at rest or in unaccelerated motion in which the resultant of all forces acting on it is zero and the sum of all torques about any axis is zero." -- Answers.com
Same as the 15kg ball. 9.8m/sec^2.
The bowling ball does slow down. Momentum is conserved. It's just that it's a heavy ball so it has a lot of momentum, and the pins are light so overall the ball doesn't slow down enough for us to notice.
To come to rest, its velocity must change, therefore it will accelerate. Once it is at rest, if it remains at rest, it will no longer accelerate, i.e., its acceleration will be zero.
This is a homework question, and the mass of the bowling ball should be in kilograms.
A bowling ball is harder to get moving and harder to stop than a hollow rubber ball of the same size. The bowling ball is also heavier, that is, it is pulled downward with greater force: but weight is an effect of gravity, while inertia is not. The two seem to go together in some way, and the next section examines this further. It may work!!!
9.8
Yes. On the way up, negative acceleration is taking place because the ball is moving up and gravity is acting in the opposite direction. On the way back down, acceleration is positive, and the object starts at rest.
I think the golf ball has more inertia than ping pong ball, becuase of its weight. It is much heavy which result that it could stay at rest more, than a very lightweight ping pong ball.