The mass of a marble ball can vary depending on its size. On average, a standard small marble ball can weigh around 5-10 grams.
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.
A bowling ball would have more kinetic energy than a marble moving at the same speed. Kinetic energy is directly proportional to mass, so an object with greater mass, like a bowling ball, will have more kinetic energy at the same speed compared to an object with lesser mass, like a marble.
The catapult has more mass than the marble, as it is a larger object designed to launch the marble. The marble is smaller and has less mass than the catapult.
In elastic collisions, the mass of the target marble is equal to the mass of the shooter marble since momentum is conserved, so the target and shooter will have the same mass. In inelastic collisions, the mass of the target marble may be greater or lesser than the mass of the shooter marble depending on the degree of energy loss during the collision.
That depends how large the piece of marble is, and how fast each is moving. If you take a regulation basketball and a basketball made out of marble, and throw both of them with the same speed, the marble has more kinetic energy. But if your throw is any good, they both follow the same arc, and they both sink, for a total of 4 points.
Possibly but not likely.
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 mass of a regular-sized marble is typically around 1 gram.
A bowling ball would have more kinetic energy than a marble moving at the same speed. Kinetic energy is directly proportional to mass, so an object with greater mass, like a bowling ball, will have more kinetic energy at the same speed compared to an object with lesser mass, like a marble.
The catapult has more mass than the marble, as it is a larger object designed to launch the marble. The marble is smaller and has less mass than the catapult.
The maximum mass for a golf ball is 45.93 grams.
In elastic collisions, the mass of the target marble is equal to the mass of the shooter marble since momentum is conserved, so the target and shooter will have the same mass. In inelastic collisions, the mass of the target marble may be greater or lesser than the mass of the shooter marble depending on the degree of energy loss during the collision.
That would depend on the mass of the marble.
That depends how large the piece of marble is, and how fast each is moving. If you take a regulation basketball and a basketball made out of marble, and throw both of them with the same speed, the marble has more kinetic energy. But if your throw is any good, they both follow the same arc, and they both sink, for a total of 4 points.
The mass of a regular size marble is 1.27 grams.
I'm pretty sure a marble has less mass
of course not although the size is different but the mass and volume does not depend on the size of the object if you try out the experiment on your own on perfect match and acs you will find out ! thank you and I am a child Stupid little genius!