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Work done equals force times distance, so 10.0 times 0.9 is 9 joules.
If your question is, "What is using a force to move an object through a distance", the answer would be "work". Work is the transfer of energy from one mechanical system to another. Work therefore has the same units as energy (e.g., Joules), and it takes energy to do work.Concerning force and distance, the product of these two quantities is work. It's the amount of work done to move that object against that force over that distance.F (N) x distance (m) = Work (Joules, or N m)1 Joule = 1 N m.
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.
The formula is: Force(N) x Distance(m) N x m The unit is:Nm
According to Newton's law of universal gravitation, every point mass in the universe attracts every other point mass with a force that is directly proportional to the product of their masses and inversely proportional to the square of the distance between their centers. The formula for this gravitational force (F) is given by: � = � ⋅ � 1 ⋅ � 2 � 2 F= r 2 G⋅m 1 ⋅m 2 where: � F is the gravitational force, � G is the gravitational constant, � 1 m 1 and � 2 m 2 are the masses of the two objects, � r is the distance between the centers of the masses. In this formula, if the masses ( � 1 m 1 and � 2 m 2 ) are zero, the gravitational force would be zero. However, this is a theoretical scenario as masses are fundamental to the concept of gravity.
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
1 Watt
Work done equals force times distance, so 10.0 times 0.9 is 9 joules.
Turning moment (Nm) = Force (N) x Perpendicular Distance from the pivot to the line of action of the force (m)
That's the work (or energy) equivalent to applying a force of 1 N, over a distance of 1 m.
That's the work (or energy) equivalent to applying a force of 1 N, over a distance of 1 m.
(Force*Time2 )/m = distance Make sure units correct
If your question is, "What is using a force to move an object through a distance", the answer would be "work". Work is the transfer of energy from one mechanical system to another. Work therefore has the same units as energy (e.g., Joules), and it takes energy to do work.Concerning force and distance, the product of these two quantities is work. It's the amount of work done to move that object against that force over that distance.F (N) x distance (m) = Work (Joules, or N m)1 Joule = 1 N m.
Energy provided by the force = (force) times (distance) = (6 x 1) = 6 joules.Kinetic energy acquired by the object = 1/2 m V2 = the same 6 joules.1/2 m (2)2 = 62m = 6m = 3 kg
Distance * Force / Calories
A type of energy that we label "work." A Joule is the work done by a force of 1 N acting on an object for a distance of 1 m. 1 [J] = 1 [N] * 1 [m]. Watch out for the definition of distance. If the object travels 1 m but ends up where it begins, the work done = 0, because the net distance traveled is zero. This is the result of being the dot product of two vectors -- force and distance. Please read about dot product in section "Geometric interpretation" in the related link. ======================================
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.