It can change, but it's always equal to (mass of the ball) times (speed of the ball).
A speeding baseball would have more momentum than an ocean liner at rest in the harbor. Momentum is the product of an object's mass and its velocity, so the faster-moving baseball would have greater momentum than the stationary ocean liner.
Just use the definition of momentum, as mass x velocity. In this case, you need to divide the momentum by the velocity, to get the mass.
The momentum of the baseball can be calculated using the formula: momentum = mass x velocity. Plugging in the values, we get momentum = 0.148 kg x 35 m/s = 5.18 kg·m/s. So, the momentum of the baseball thrown toward home plate is 5.18 kg·m/s.
The momentum of the baseball player can be calculated by multiplying their mass (m) by their velocity (v). Momentum = mass x velocity. In this case, the momentum would be 72 kg x 4.9 m/s = 352.8 kg m/s.
The momentum of the baseball is calculated by multiplying its mass (1.35 kg) by its velocity (3.75 m/s), giving a momentum of 5.06 kg*m/s in the direction away from the home plate.
The momentum of the baseball and the vase after the collision is the same as it was before the collision, as long as there are no external forces acting on them. This is because momentum is conserved in the absence of external forces.
Why would a baseball be hitting another baseball?
A speeding baseball would have more momentum than an ocean liner at rest in the harbor. Momentum is the product of an object's mass and its velocity, so the faster-moving baseball would have greater momentum than the stationary ocean liner.
Just use the definition of momentum, as mass x velocity. In this case, you need to divide the momentum by the velocity, to get the mass.
The speed of a baseball with a momentum of 5.8 kilograms m/s and a mass of 0.145 kilograms is
The momentum of the baseball can be calculated using the formula: momentum = mass x velocity. Plugging in the values, we get momentum = 0.148 kg x 35 m/s = 5.18 kg·m/s. So, the momentum of the baseball thrown toward home plate is 5.18 kg·m/s.
The momentum of the baseball player can be calculated by multiplying their mass (m) by their velocity (v). Momentum = mass x velocity. In this case, the momentum would be 72 kg x 4.9 m/s = 352.8 kg m/s.
Unfortunately, your list of situations got lost, so there's no way for me to choose the correct one. But clearly, since the baseball's mass is only half the softball's mass, the baseball needs double the softball's speed in order to have the same momentum.
Impulse is change of momentum, which is force x time over which the force acts. Original momentum = mv, final momentum =0, so impulse is in this case mv.
The momentum of the baseball is calculated by multiplying its mass (1.35 kg) by its velocity (3.75 m/s), giving a momentum of 5.06 kg*m/s in the direction away from the home plate.
momentum
When a bat hits a Baseball the bat transfers momentum. Momentum is the force in a moving object, which can be passed on from one object to another.