Because high and low momentum = high and low acceleration because it depends. =]
Momentum = mass * velocity. The mass of a train is massive so it'll have a high momentum
Momentum is the product of velocity and mass.
The system wherein the net momentum is zero at all times during the stone's fall is the stone itself. Momentum is a vector quantity, and the stone experiences an equal and opposite change in momentum at each instant due to the gravitational force. The external forces acting on the stone can be neglected in this case.
Conservation of momentum means that momentum is a constant and the change of momentum or force is zero.
Momentum = mass x velocity A bullet has a high momentum because its velocity is really high.
Because high and low momentum = high and low acceleration because it depends. =]
Momentum = mass * velocity. The mass of a train is massive so it'll have a high momentum
linear momentum. A rocket works by expelling gases from one end at a very high velocity. The escaping gases have a very high speed and this with their mass translates to a very large momentum. Due to the principle of conservation of momentum the body of the rocket is pushed forward. If both the momentum of the gases as well as that of the rocket are added the sum is zero.
Momentum is the product of velocity and mass.
The motto of Grant County High School is 'Advancing Knowledge. Activating Momentum.'.
Simply put, four-momentum transfer is the special relativistic spacetime analog of classical (three-) momentum transfer. In classical physics, two bodies can interact and exchange momentum in three spacial dimensions. In particle physics, strictly spatial momentum vectors do not suffice. Instead we use four-momentum, a Lorentz vector. Four-momentum transfer is often referred to as Q^2 is particle physics literature. An interaction that transfer a large amount of four-momentum is a high Q^2 interaction.
The system wherein the net momentum is zero at all times during the stone's fall is the stone itself. Momentum is a vector quantity, and the stone experiences an equal and opposite change in momentum at each instant due to the gravitational force. The external forces acting on the stone can be neglected in this case.
no, because it doesnt have enough momentum to get that high up.
When momentum is conserved, the initial momentum is equal to the final momentum.
By expelling hot gasses extremely fast from the rocket nozzle. Due to the conservation of momentum, expelling mass at high velocity causes the rocket to gain momentum and therefore velocity.
Use this formula:Final momentum = (initial momentum) + (change in momentum)