An outside force causes an object to have more momentum. For example, if you push a ball, the ball would have more momentum and would therefore move. You pushing the ball would be the outside force.
The principle of conservation of momentum is not satisfied, since the sum of external forces is not equal to zero, if the ball falls the net force is equal to the weight, makes the ball Vary your speed and therefore their momentum.
the momentum would be 27.44 kg*m/s
Momentum is P = mv or Momentum = mass x velocity so the momentum of that ball would be 6 x 4.5 = 27kg m/s
momentum=velocity x mass say a golf ball weighs 1 pound and the bowling ball weighs 5 pounds the golf ball would have to be moving 5 times faster than the bowling ball to have the same momentum
An outside force causes an object to have more momentum. For example, if you push a ball, the ball would have more momentum and would therefore move. You pushing the ball would be the outside force.
Momentum is mass x velocity, so it would also depend on each ball's velocity.
The principle of conservation of momentum is not satisfied, since the sum of external forces is not equal to zero, if the ball falls the net force is equal to the weight, makes the ball Vary your speed and therefore their momentum.
A bowling ball has more momentum. You cannot throw it as fast, but a tenpin ball weighs 16 pounds and a baseball only 1/3 pound. Momentum is mass times velocity and if you throw the bowling ball at 10 mph but the baseball at 90 mph the bowling ball still has much more momentum.
depends on how hard you hit in but in most cases....yes
the momentum would be 27.44 kg*m/s
Momentum is calculated by taking the product of mass times velocity. Thus, a moving tennis ball would have a nonzero momentum. However, since a tennis ball has a relatively small mass, it would need to have a high velocity in order to have a large value for its momentum. Since velocity is a vector (having both a magnitude and a direction), momentum is also a vector. When a tennis player hits a tennis ball with his racket, he imparts a force onto the tennis ball, which changes the direction of its momentum to return it over the net. (The value for this change in momentum is called impulse, which is equal to the product of the force applied and the time for which it is applied.)
A baseball flies through an open window and collides with a vase. The momentum of the ball and vase after the collision is the same as the momentum of the ball alone before the collision.
Momentum is P = mv or Momentum = mass x velocity so the momentum of that ball would be 6 x 4.5 = 27kg m/s
momentum=velocity x mass say a golf ball weighs 1 pound and the bowling ball weighs 5 pounds the golf ball would have to be moving 5 times faster than the bowling ball to have the same momentum
If both balls are moving at the same speed (velocity), the heavier (more massive) will have the greater momentum. Momentum is the product of mass and velocity. With identical velocities, the more massive object will have the greater momentum. If a 34 kg ball and a 35 kg ball are both moving at 8 m/s as asked, then the 34 kg ball will have less momentum than the 35 kg ball.
That would depend on the velocity of the soccer ball not at rest.