(Momentum) = (mass) x (velocity)
If you know the momentum and the mass, you can find the velocity.
Do you know how to do algebra?
(velocity) = (Momentum) / (mass) = (30,000 kg m/s) / (400 kg) = 75 m/s
Use the equation:momentum = mass x velocity
Replace the numbers you know, and solve for the one you don't, i.e., for velocity.
p=v*m so v=m\p=2000/40000 vo=0.05m\s
Use the formula for momentum: momentu = mass x velocity. Replace the data you know and solve for velocity.
It is 225 ms^-1 to the right.
Momentum= 40000
True
Mass=0.5
Momentum= 400.
momentum change = 670.56 kilogram-meter/second
(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.
dwell dwell dwell
Mass=0.5
Momentum
kilogram-meter per second.
Momentum= 400.
momentum change = 670.56 kilogram-meter/second
One meter is the distance that light travels in a vacuum in 1⁄299,792,458 of a second.
A wave travels an average distance of 1 meter in 1 second with a frequency of 1 hertz Its amplitude is that there is not enough information to say. A 60 vibration per second wave travels 30 meters in 1 second, its frequency is 60 hertz and it travels 30 meters per second.
Momentum = mass x velocity, so logically, the unit is kg x meter / second. This unit has no special name.
Momentum = M V = 10V = 10/M = 10/2= 5 meters per second
Momentum = (mass) x (speed) = (0.1) x (5) = 0.5 kilogram-meter per second
(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.
If you jump up, for example, with a momentum of 100 kilogram x meter / second (this can be done by jumping up at a speed of 2 meters/second, if you have a mass of 50 kilograms), then the Earth will recoil by the same amount of momentum - in the opposite direction of course. This follows directly from Conservation of Momentum.