This can be a tricky question; before answering one like this ask for the frame of reference.
If you are in a closet with a floating feather, and a ball on a shelf, and measure momentum relative to the closet, the feather will have more momentum than the Bowling ball.
However, if you look at the larger picture, you will find that
Every one of these motions involves momentum, and the total momentum is shared out among everything on or in this planet in proportion to its mass. The bowling ball is enormously massive compared to the feather, and has vastly more momentum in the universal frame of reference.
The answer is correct, but the last sentence is wrong. There is no universal frame of reference.
A bowling ball would have more momentum because it has a greater mass.
yes
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 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 ...
Basketball
b
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.
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.
A bowling ball is heavier than a tennis ball for a number of reasons. Two of which should be obvious: The bowling ball is bigger and therefore weighs more for it has more mass. And the bowling ball is made of a denser material and is solid. A tennis ball is made out of rubber and is hollow and filled with air.
sand grain
No, a bowling ball (or any other object) has exactly the same inertial mass no matter where it is (its actual inertia will, of course, depend upon its velocity as well as its inertial mass). Weight changes on the moon, but inertia doesn't.
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 slowly but has a high mass. The beach ball accelerates quickly but has a low mass. So the bowling ball has more inertia.
Inertia is the resistance of motion of an object. The more inertia, the harder it is to move something. The less inertia, the easier it is to move. Take a bowling ball and a marble. The marble can be flicked by the finger, because it has less inertia. The bowling ball takes the entire hand because it has more inertia than the marble. According to Newton's laws, an object that is moving tends to continue in motion. A moving object has inertia as it has Mass and Velocity. An object that is not moving requires a Force exerted on the Mass to start it moving.