Greater than.
The bowling ball transfers its kinetic energy (energy of movement) to the stationary bowling pins.
Inertia deals with an objects reluctance to change its velocity. So if its not moving, you will have to exert a large force to get it to move. But once it is in motion, its inertia helps it move by lowering the breaking effect of resistance. If you throw a bowling ball through a grass field, it will go father than a beach ball thrown in a similar manner, because the bowling ball has more inertia!!
you cannot make a floating and sinking bowling ball, it is highly impossible.
Pushing a ball in a vaccum is an example of inertia because there is no resistence to stop the ball so the ball would keep going.
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!!!
Basketball
greater than
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 basketball is lighter than a bowling ball.
Inertia and gravity cause a bowling ball to stop on earth.
a bowling ball
Bowling Ball
Most likely the bowling ball. According to the laws of physics, an object with more inertia accelerates slower but is harder to stop. The bowling ball accelerates ...
inertia
Because there both very heavy
cat
The one with the greatest mass has the greatest inertia. So, it will be the bowling ball.