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360 kg/ms
10 m/s
momentum= mass x velocity so... they have equal amounts of momentum, 6 kgm/s
Momentum = M V = 100 kg-m/s
If the forces are in the same direction, add them and if they're in opposite directions, subtract them. I'm not sure what to do if they're in directions other than that.
i would have to say 30000 kg ms but i may be wrong
360 kg/ms
10 m/s
momentum= mass x velocity so... they have equal amounts of momentum, 6 kgm/s
Momentum = M V = 100 kg-m/s
Using p=mv. p: momentum (kg ms^-1) m: mass (kg) v: velocity (ms^1) p = (25)(4) = 100 kg ms^-1
The momentum of a 1400 kg car traveling at 25 m/s is: momentum = mass x velocity momentum = 1400 kg x 25 m/s momentum = 35,000 kg m/s Therefore, the momentum of the 1400 kg car traveling at 25 m/s is 35,000 kg m/s
Law of Conservation of Momentum: The total momentum after the collision is equal to the total momentum before the collission.
If the forces are in the same direction, add them and if they're in opposite directions, subtract them. I'm not sure what to do if they're in directions other than that.
Their combined momentum was 40,000 kg-m/s: 2000kg X 20 m/s= 40000 kg-m/s.
Their combined momentum was 40,000 kg-m/s: 2000kg X 20 m/s= 40000 kg-m/s.
The momentum is the product of the mass and the velocity.