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.
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.
The SUV would have the greater momentum because momentum is the product of an object's mass and velocity. Since an SUV typically has greater mass than a compact car, it would have greater momentum at the same velocity.
Since momentum is mass x velocity, the vehicle with the greater mass would have more momentum in this case.
The momentum of the truck can be calculated by multiplying its mass by its velocity. Therefore, the momentum of the truck would be 4500 kg * W m/s.
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?
If a car and a truck are traveling at the same speed, the truck would have more momentum because it has a greater mass.
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.
Yes. At the same velocity, a truck would have more momentum than a car as it has greater mass. Momentum is the product of mass and velocity: ρ=mv
The SUV would have the greater momentum because momentum is the product of an object's mass and velocity. Since an SUV typically has greater mass than a compact car, it would have greater momentum at the same velocity.
Since momentum is mass x velocity, the vehicle with the greater mass would have more momentum in this case.
The momentum of the truck can be calculated by multiplying its mass by its velocity. Therefore, the momentum of the truck would be 4500 kg * W m/s.
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?
i would have to say 30000 kg ms but i may be wrong
The momentum of any object depends on its mass and its speed. If a car and a bike are both moving at the same speed, then the car has more momentum because it has more mass than the bike. If the car and the bike are moving at different speeds, then we need to know the speeds of each, in order to make any determination about their respective momenta.
The truck it has more weight behind it.
Increasing mass affects both angular and linear momentum differently. For linear momentum, doubling the mass doubles the momentum if velocity remains constant. For angular momentum, increasing mass without changing the distribution around the axis of rotation affects angular momentum due to rotational inertia. In simple terms, the rotational speed would likely decrease to conserve angular momentum.
(Any unit of mass) times (any unit of speed) is a unit of linear momentum. Angular momentum would need radians.In the SI (metric) system, it's kilogram meter per second kg.m.s-1 or Newton-second.