The momentum of one ball will be exactly the opposite of the momentum of the other ball. The total momentum in this case will be zero.
No, the magnitude will be constant, but the direction of the momentum will change to reflect the direction of the velocity.
The sheep's momentum vector has a magnitude of 250 kilogram-meters per second,and a direction of east.
They have identical momentum before the collision . The total momentum will the the same before and after the collision. When the balls collide they will bounce apart both with same force and so the same momentum as originally - but in opposite directions. This assumes no energy loss in an ideal elastic collision.
In the same direction. Both momentum and velocity are vectors.
The ball's momentum changes in one direction, the momentum of planet Earth in the opposite direction.
No, the magnitude will be constant, but the direction of the momentum will change to reflect the direction of the velocity.
Momentum is equal to the product of mass and velocity, so if the mass is equal, the one with greater velocity has greater momentum.
The sheep's momentum vector has a magnitude of 250 kilogram-meters per second,and a direction of east.
They have identical momentum before the collision . The total momentum will the the same before and after the collision. When the balls collide they will bounce apart both with same force and so the same momentum as originally - but in opposite directions. This assumes no energy loss in an ideal elastic collision.
Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.
Momentum = (mass ) x (velocity) = (5) x (4) = 20 kg-meters/sec in the direction of the velocity.
For a simple answer, we have to ignore air resistance. As the skydiver's downward momentum increases, the earth's upward momentum increases by an identical amount. The total momentum of the earth-skydiver system remains constant.
In the same direction. Both momentum and velocity are vectors.
The ball's momentum changes in one direction, the momentum of planet Earth in the opposite direction.
The momentum of a 1400 kg car traveling at 25 m/s is: momentum = mass x velocity momentum = 1400 kg x 25 m/s momentum = 35,000 kg m/s Therefore, the momentum of the 1400 kg car traveling at 25 m/s is 35,000 kg m/s
Because momentum is mass X velocity. Velocity has direction, otherwise it is speed.
It means that the momentum increases, decreases, or simply changes its direction. The latter is because momentum is a vector quantity (that is, the direction is relevant). Momentum is defined as the product of velocity and mass.