The one with greater mass.
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.
skateboard. momentum is mass times velocity thus if 0 velocity=0 momentum
Momentum is the product of mass x velocity. At zero velocity, momentum will also be zero.
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.
Assuming that both the stationary car and the flying bug can be analyzed against the same reference point, the bug has the greater momentum. Momentum is defined as the product of mass and velocity. If the car exhibits no motion, then its momentum is zero. Since the bug is flying, it has nonzero velocity and a nonzero momentum, which is greater than the car's momentum.
You need to know their mass. p=mv momentum=Mass times Velocity
You need to know their mass. p=mv momentum=Mass times Velocity
Momentum is equal to the product of mass and velocity, so if the mass is equal, the one with greater velocity has greater momentum.
Momentum is mass times velocity, if the velocity of the two are the same, the object with the greater mass will have proportionally greater momentum.
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 = Ρ = m•v, m is mass in kg, and v is velocity in m/s. Both the semi and the linebacker are traveling at the same velocity. However, the mass of the semi is hundreds of times the mass of the linebacker. Therefore, the semi will have a much greater momentum than the linebacker.
skateboard. momentum is mass times velocity thus if 0 velocity=0 momentum
The one with greater mass.
Momentum is the product of mass x velocity. At zero velocity, momentum will also be zero.
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.
momentum is mass x velocity so if we double v then momentum becomes 2 times greater or double also
Assuming that both the stationary car and the flying bug can be analyzed against the same reference point, the bug has the greater momentum. Momentum is defined as the product of mass and velocity. If the car exhibits no motion, then its momentum is zero. Since the bug is flying, it has nonzero velocity and a nonzero momentum, which is greater than the car's momentum.