Just multiply mass x velocity.
To find the momentum of an object you must know the mass of the object and the velocity at which it travels. Example: A 50kg man runs at 10m/s. What is his momentum? Momentum = Mass x Velocity 50 x 10 = 500 kgm/s
Momentum = Mass x Velocity = 11 x 10 = 110 Ns (Newton seconds)
It lowers proportionally to the decrease in the mass. Since potential energy = mgh, changing the "m" would completely change the potential energy. For instance if we look at g as 10 m/s^2 and h as 10m: The original mass is 10kg. (10kg)*(10m/s^2)*(10m)= 1000J If we cut the mass in half. (5kg)*(10m/s^2)*(10m)= 500J The potential energy is cut in half.
10m
Try dividing 500m by 10m/s, what do you get oh yes 50s
The momentum is given by the formula... p=mv p=momentum m=mass v=velocity In your question your mass is 30kg and your velocity is 10m/s just do simple math and your momentum is 300kg*m/s
To find the momentum of an object you must know the mass of the object and the velocity at which it travels. Example: A 50kg man runs at 10m/s. What is his momentum? Momentum = Mass x Velocity 50 x 10 = 500 kgm/s
Momentum = Mass x Velocity = 11 x 10 = 110 Ns (Newton seconds)
he body which is moving along the radius of 10m experiences greater centrifugal force as it is inversely proportional to its radius
10m/s
old equation was : work done = force * distance lift 100kg up 10m (assume a = 10 (m/s)/s) then wd= 1000n * 10m =10000 n-m also consider si version : energy change = mgh = 100*10*10=10000joules
10M 10M 10M
That mean the bus can move up 2.4m when moving 10m long
1 dam3 = 10m*10m*10m = 1000 m3.
You are moving 10m/s or if you multiply that with 3600 you get 36000 m/h. Divide that with 1000 and you get 36 km/h.
16m-10m = 6
1.5-10m = -8.5