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How can a slowly docking boat and a speeding rifle bullet both have a large amount of momentum?
Momentum = mass * Velocity. Boat has large mass but low velocityBullet has small mass but high velocity.Momentum is a function of speed and mass. A slowly docking boat has a low speed, but the boat will have huge mass, therefore the momentum will be a large amount. The bullet has very low mass, but huge speed, and so, again, the momentum will be large.
Why do both you slowly docking ferry boat and a speedy rifle bullet have a large amount of momentum?
Both the ferry boat and the rifle bullet have large amounts of momentum because momentum is determined by the mass and velocity of an object. Even though the ferry boat is moving slowly but has a large mass, while the rifle bullet is moving quickly but has a much smaller mass, their momentum values end up being significant due to the combination of these two factors.
Would a larger mass moving slowly have the least momentum?
No, momentum is given by the product of an object's mass and its velocity, so a larger mass moving slowly could still have significant momentum. Momentum depends on both mass and velocity, so even if an object is moving slowly, a large mass can still have considerable momentum.
Would a large mass moving slowly have more or less momentum than a small mass moving slowly?
A large mass moving slowly would have more momentum than a small mass moving slowly because momentum is a product of mass and velocity. Even if both masses are moving at the same speed, the larger mass would still have more momentum due to its greater mass.
What you expect to have the least momentum?
a small mass moving slowly
What would you expect to have the least momentum?
An object with a small mass and low velocity would have the least momentum. Momentum is the product of an object's mass and velocity, so a combination of low mass and low velocity would result in the least momentum.
Have the least momentum?
An object with the least momentum would be one that is either stationary or moving very slowly. Momentum is the product of an object's mass and velocity, so an object with a small mass and low speed would have the least momentum.
A car runs out of gas and slowly coasts to a stop this is an example of?
Momentum, friction failure to plan ahead.
What is the difference between a small momentum and a large momentum?
The larger the momentum, the harder it will be to stop it. Thus, the larger the force needed to decelarate the object. Since momentum is directly proportional to the velocity, the larger the momentum, the larger the velocity.
What is expected to have the least momentum?
An object with a small mass and low velocity would be expected to have the least momentum. Momentum is calculated by multiplying an object's mass by its velocity, so a smaller mass or slower velocity would result in less momentum.
How does the change in momentum over time affect the motion of an object?
The change in momentum over time affects the motion of an object by determining how quickly the object speeds up or slows down. If the momentum changes rapidly, the object will accelerate or decelerate quickly. If the momentum changes slowly, the object will change its speed more gradually.
What happens to the momentum when mass is slowly decreasing but the velocity keeps constant?
Momentum = mass x velocity. Here velocity is constant. So momentum is directly proportional to the mass. Hence as mass decreases momentum too decreases proportionaly. If mass is reduced to half of its original then momentum also gets reduced to half of its original
