Momentum = mass x velocity (p = mv)
(2 kg)(10 m/s) = 20 kg m/s.
liner momentum = p = mV = 2 kg * 10 m/s = 20 kg m/s
Magnitude of momentum = (mass) x (speed) = (4,500) x (25) = 112,500 kilogram-meters/second
Using the equation for conservation of momentum you can workk out the initial speed of the first truck which was 12 meters per second.
A truck that is more massive with the same velocity as the truck that is less massive will definitely have more momentum. This is illustrated in the equation for momentum:p = mvWhere p is momentum which is measured in Newton seconds, m is mass which is measured in kilograms, and v is velocity, measured in meters per second. If you plug in a larger mass for that same equivalent velocity, it will accordingly have more momentum.Also, if you just think about it, what would be harder to move: something with more mass or something with less mass?
Each revolution rolls the truck ahead 1 tire-circumference.(2 revs per second) x (2.5 meters per rev) = 5 meters per second
That would depend on their velocity (speed with direction), since the formula for momentum is momentum=Mass*Velocity. If they are moving at the same Velocity, the heavier of the two would have greater momentum.
No.
Since momentum equals mass times velocity, if the mass of the truck times its velocity is greater than the mass of the bus times the bus' velocity then the momentum of the truck will be greater than the momentum of the bus.
Momentum defined as p=mv.. The momentum of the truck depends on its velocity
The total momentum of the system doesn't change. In this case, it refers to the momentum of the toy truck plus the momentum of the toy car.
No.
A truck.