When you gain speed, you also gain momentum, and that's why it takes a longer amount of time to stop or speed up.
Momentum is the product of mass M and motion V, p=MV. If V is small and mass M is enormous, then the product MV is still huge.
Momentum = mass x velocity. It is the product of the two which you must consider.Momentum = mass x velocity. It is the product of the two which you must consider.Momentum = mass x velocity. It is the product of the two which you must consider.Momentum = mass x velocity. It is the product of the two which you must consider.
No, momentum is determined by both mass and velocity. Even though a bullet can have a very high velocity, the mass of a huge truck is much greater, resulting in greater momentum.
Glacier
The rules are the same, but the quantum effects are more relevant for small objects. For example, the Heisenberg Uncertainty Principle states that the product in the uncertainties in position and momentum can't go below a certain limit. Ordinary-sized object have such a huge mass, and thus, such a huge momentum, that the Uncertainty Principle can safely be ignored.The rules are the same, but the quantum effects are more relevant for small objects. For example, the Heisenberg Uncertainty Principle states that the product in the uncertainties in position and momentum can't go below a certain limit. Ordinary-sized object have such a huge mass, and thus, such a huge momentum, that the Uncertainty Principle can safely be ignored.The rules are the same, but the quantum effects are more relevant for small objects. For example, the Heisenberg Uncertainty Principle states that the product in the uncertainties in position and momentum can't go below a certain limit. Ordinary-sized object have such a huge mass, and thus, such a huge momentum, that the Uncertainty Principle can safely be ignored.The rules are the same, but the quantum effects are more relevant for small objects. For example, the Heisenberg Uncertainty Principle states that the product in the uncertainties in position and momentum can't go below a certain limit. Ordinary-sized object have such a huge mass, and thus, such a huge momentum, that the Uncertainty Principle can safely be ignored.
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.
big, huge, great. superman, supervisor, supertanker
Massive Moves - 2010 Huge Homestead 3-25 was released on: USA: 31 March 2013
Massive Moves - 2010 Huge Hacienda 3-22 was released on: USA: 17 March 2013
It depends on how fast each is going and how much each weighs. Momentum is calculated by multiplying the mass of an object by its speed. A tiny bullet moving very fast can have more momentum than a huge truck if the truck is moving very slowly (or not at all). (bullet mass) X (bullet speed) > (truck mass) X (truck speed)
The momentum of the person is transferred to the ground upon landing. Initially, the person has momentum due to their motion in the air, and upon landing, this momentum is imparted to the ground as the person comes to a stop.
It is an iceberg.