Energy. Two objects with the same momentum can have different kinetic energy.
Example - A 1 oz projectile at 1000 ft/s and a 10 oz projectile at 100 ft/s have the same momentum. The lighter projectile has 10 times as much kinetic energy as the heavy projectile.
Example - A 1 oz projectile at 1000 ft/s and a 100 oz projectile at 100 ft/s have the same kinetic energy. The heavier projectile has 10 times as much momentum as the lighter projectile.
Momentum = m*v. Energy = (m*v*v)/2.
a moving objects momentum
By definition p=mv: momentum = mass * velocity (speed if you don't care about direction)
If they are coupled together and have the same velocity v, then the momentum is 0.08v, with units that depend on what units your mass has.
That would depend on their velocity (speed with direction), since the formula for momentum is momentum=Mass*Velocity. If they are moving at the same Velocity, the heavier of the two would have greater momentum.
That would depend on what you consider "large".The size of an object's momentum = (its mass) x (its speed).So, more mass and more speed result in more momentum.
a moving objects momentum
Kinetic Energy
Mass and force
By definition p=mv: momentum = mass * velocity (speed if you don't care about direction)
mass, velocity, and radius.
Both momentum and kinetic energy depend on mass and velocity.
Momentum is mass x velocity, so it would also depend on each ball's velocity.
That would depend on what you consider "large".The size of an object's momentum = (its mass) x (its speed).So, more mass and more speed result in more momentum.
If they are coupled together and have the same velocity v, then the momentum is 0.08v, with units that depend on what units your mass has.
The amount of momentum that an object has is dependent upon two variables: how much stuff is moving and how fast the stuff is moving. Momentum depends upon the variables mass and velocity. In terms of an equation, the momentum of an object is equal to the mass of the object times the velocity of the object.
That would probably depend on the specific situation; there are several equations that involve momentum. Two important equations are: 1) Conservation of momentum: m2 = m1 (i.e., total momentum after some event, such as an impact, is the same as total momentum before the event) 2) The definition of momentum: p = mv (momentum, which is usually written as "p", is mass times velocity) cw: Impulse (Force X time) is equal to the change in momentum.
That would depend on their velocity (speed with direction), since the formula for momentum is momentum=Mass*Velocity. If they are moving at the same Velocity, the heavier of the two would have greater momentum.