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.
I'm pretty sure a marble has less mass
The mass of a regular size marble is 1.27 grams.
The mass of a typical marble is around 5 grams, which is equivalent to 0.005 kilograms.
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.
Yes, the mass of a marble affects its motion because objects with larger mass have greater inertia, meaning they resist changes in their motion more. A heavier marble will require more force to move it compared to a lighter marble of the same size.
The mass of a regular-sized marble is typically around 1 gram.
Depends on the marshmallow and the marble... a 2g marble will have the same mass as a 2g marshmallow........
What do you want to measure about the marble? Its diameter, radius, circumference, volume, mass, density...?
The formula for density is density = mass/volume. Plugging in the values given (mass = 132.796g, volume = 26.9cm3), the density of the marble would be approximately 4.937 g/cm3.
well its ceramic