Unless it's a really big eraser, then yes.
Yes, a pencil eraser is an example of matter. Matter is anything that has mass and occupies space, and a pencil eraser fits this definition as it is a physical substance made up of atoms and molecules.
a bowling ball
Yes, because a bowling ball is more dense than a soccer ball. A bowling ball is solid all throughout while a soccer ball has its outer layer, but has air inside of it. Hope that this answer helps! :)
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.
kilograms
The number of atoms in a pencil eraser can vary depending on its size and material, but a typical rubber eraser weighs about 2 grams. Given that the average mass of an atom is approximately 10^-23 grams, there are roughly 10^24 atoms in a standard pencil eraser. This is an estimate, as the exact number would depend on the specific composition and structure of the eraser material.
A feather would have more mass than a bowling ball only if you accumulate enough feathers to equal the mass of the bowling ball. Since a single feather is much lighter than a bowling ball, it would take a very large number of feathers—potentially thousands or even millions, depending on the feather's size and type—to surpass the mass of the bowling ball. In practical terms, individual feathers are never more massive than a bowling ball.
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.
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.
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.
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.