Work = Force * displacement if the displacement and the force are parallel - work is positive if force and displacement are in the same direction, negative if they have opposite direction.
At an angle Work = Force * displacement * cos(θ)
where θ is the angle between the force and displacement vectors.
all forces are either a push or a pull. even over a distance. gravity is a pull and its opposing force, upthrust, is a push or for ipc its work
Work = force x distance Work = 10N x 4m= 40 joules
force=2N distance moved=o.1 m work done=? work done=force(N)*distance moved (M) work done=2*o.1 work done= 0.2 watts
Force times Distance equals Work
The gravity from the Sun is a distant force, but does contribute to the tides.
Force moved through a distance is work. Work = Force x Distance
Work.
In elementary physics the the application of force over a distance can regard gravitation. Furthermore, the application of force over an area regards the measure of pressure.
We do work when we apply a force through a distance.
force * distance = work
input distance- the distance the input force acts through
The definition of work is 'the distance through which the force is applied, times the net force'. So their is a linear relationship between work and distance.
Applying a force through a distance is known as work. Work equals force in Newtons times distance in meters, and the unit for force is the Newton•meter, N•m.
Yes, the definition of work is force * distance.
Work W. The dot product of Force and Distance through which the force acts is called Work . W=F.d
Input Distance is the distance the input force acts through.
work