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Gravity does not affect total mass, no matter where in the universe the Bowling ball travels. Therefore, a 7 kilogram bowling ball will always be 7 kilograms.

Q: What is the mass of a 7.0-kilogram bowling ball on the surface of the moon?

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Yes, the mass of a typical bowling ball is greater than the mass of a soccer ball. A regulation bowling ball usually weighs around 6-16 pounds, while a standard soccer ball weighs about 0.4-0.5 pounds.

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.

The bowling ball has more momentum because momentum is directly proportional to an object's mass and velocity. Since the two balls are moving at the same speed, the greater mass of the bowling ball results in it having more momentum.

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B. A bowling ball has the greatest inertia because it has the most mass compared to the other objects listed. Inertia is directly related to an object's mass, with greater mass resulting in greater inertia.

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.

No, the inertia of a bowling ball is greater than that of a golf ball. Inertia is directly related to an object's mass, so the heavier the object, the greater its inertia. The mass of a bowling ball is much larger than that of a golf ball, resulting in greater inertia.

The object with the most gravitational force would be the bowling ball, as it has the greatest mass compared to a sand grain, marble, and tennis ball. Gravitational force increases with mass, so the object with the highest mass will have the strongest gravitational force.

The bowling ball is denser than the soccer ball, meaning it has more mass packed into the same volume. This is due to the material and construction of the bowling ball, which is designed to weigh more for the sport it is used in.

A bowling ball has more inertia than a basketball because inertia is directly proportional to an object's mass. The larger mass of the bowling ball means that it will be more resistant to changes in its state of motion compared to the basketball.