[ force ] = [ mass ] [ acceleration ] = [ mass ] [ length/time2 ] = [ mass-length-time-2 ]
Work is force times distance. A Force divided by Distance: looking at the units, Force = newtons = kg m / s^2 = mass x length / time^2 so ML/T^2 Distance = m = length so L Force/Distance = (ML/T^2)/L = ML/LT^2 = M/T^2 So the units of a force divided by distance are mass/ time^2 This would be the rate of change of mass change with respect to time.
when the distence between the two objects is increased by ten times then the force of gravitation will reduce by 100 times.
Impulse = [(change in momentum)/time]*time[(change in momentum)/time] = ForceAnd when force acts for a period of time, that impulse changes the momentum of the object.You can also rewrite the impulse equation as: I = F*tHowever, for change in momentum times time, the units would be (kg*m/s)*(s) = kg*m. These units are not in common usage.
The definition of force, first proposed by Isaac Newton, is mass times acceleration.
Force times time is Impulse Inertia is mass
power
Work=Force X Distance
The value of the impulse equals the the force times the time.
force times distance
impulse
(mass X distance)/(time X time), or mass times acceleration
Work = (force on an object) times (displacement of the object during the time the force is applied to it).
You calculate peak force by multiplying Mass times Velocity divided by time
Force equals mass times acceleration.
No, work is equal to force times distance. Power is equal to force times distance over time.
It usually means a sudden urge to to something. In physics it means 'the product of force and the time for which it acts', or force times time.