cricket ball
A cricket ball is required to be between 155.9g and 163g.
because cricket ball has greater mass
The cricket ball has more inertia than the rubber ball because inertia is directly proportional to mass. The cricket ball is denser and heavier than the rubber ball, making it harder to change its state of motion.
Yes, a golf ball typically has a lower mass than a balloon. A golf ball is made of dense materials like rubber and hard plastic, while a balloon is filled with air or helium, which is lighter. The mass of an object is determined by the amount of matter it contains, so the solid material of a golf ball will generally have a higher mass than the gas inside a balloon.
Iron wrecking ball
the smaller the mass the farther the roll
Cricket balls, weighing between 155.9 and 163.0 grams
Assuming all other factors are equal, a bigger ball would have the same acceleration as a smaller ball when subject to the same force. This is because acceleration is dependent on force and mass, and in this case, the increased mass of the bigger ball would require more force to achieve the same acceleration as the smaller ball.
If two perfect spheres of different sizes have the same mass, then the larger ball has a lower density and the smaller ball has a higher density. This is because density is the amount of mass in a given volume, and density is obviously higher if there is a smaller volume for a given amount of mass.
The kinetic energy of a cricket ball depends on its mass and velocity. For example, a cricket ball weighing 160 grams and traveling at a speed of 140 km/h (38.89 m/s) would have a kinetic energy of about 110 joules.
If the smaller mass is more dense, like a spoon lifting an inflated balloon. Or if the smaller mass has more electromagnetic properties then the larger one, like a small magnet being able to lift a pile of nails.
The physical size doesn't matter. The ability to stop (or start) an object depends on its mass. For example, a bowling ball has more mass than a large balloon or sofa cushion. Smaller masses are easier to stop (or start).