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newton meter.
In this case, you simply multiply the force times the distance. This assumes the 15 Newtons are applied exactly in the direction of the movement; otherwise, you take the component in that direction. Result is in Newton-meter, also called Joule.In this case, you simply multiply the force times the distance. This assumes the 15 Newtons are applied exactly in the direction of the movement; otherwise, you take the component in that direction. Result is in Newton-meter, also called Joule.In this case, you simply multiply the force times the distance. This assumes the 15 Newtons are applied exactly in the direction of the movement; otherwise, you take the component in that direction. Result is in Newton-meter, also called Joule.In this case, you simply multiply the force times the distance. This assumes the 15 Newtons are applied exactly in the direction of the movement; otherwise, you take the component in that direction. Result is in Newton-meter, also called Joule.
One definition of work is "Force acting through distance". The quantity of work is (force) multiplied by (distance through which the force acts). The 'dimension' of work is [Force] multiplied by [Distance]. "Newton" is a unit of force. "Meter" is a unit of distance. When you multiply a force measured in 'pounds', by a distance measured in 'feet', you get the amount of work done, measured in "foot-pounds". When you multiply a force measured in 'tons', by a distance measured in 'miles', you get the amount of work done, measured in "ton-miles". When you multiply a force measured in 'newtons', by a distance measured in 'meters', you get the amount of work done, measured in "newton-meters".
Simply multiply force x distance. This assumes that the force is in the same direction as the movement.
Direction is to the right. Magnitude is 10 Newtons.
newton meter.
Meter : Distance = Newton : Force
In this case, you simply multiply the force times the distance. This assumes the 15 Newtons are applied exactly in the direction of the movement; otherwise, you take the component in that direction. Result is in Newton-meter, also called Joule.In this case, you simply multiply the force times the distance. This assumes the 15 Newtons are applied exactly in the direction of the movement; otherwise, you take the component in that direction. Result is in Newton-meter, also called Joule.In this case, you simply multiply the force times the distance. This assumes the 15 Newtons are applied exactly in the direction of the movement; otherwise, you take the component in that direction. Result is in Newton-meter, also called Joule.In this case, you simply multiply the force times the distance. This assumes the 15 Newtons are applied exactly in the direction of the movement; otherwise, you take the component in that direction. Result is in Newton-meter, also called Joule.
One definition of work is "Force acting through distance". The quantity of work is (force) multiplied by (distance through which the force acts). The 'dimension' of work is [Force] multiplied by [Distance]. "Newton" is a unit of force. "Meter" is a unit of distance. When you multiply a force measured in 'pounds', by a distance measured in 'feet', you get the amount of work done, measured in "foot-pounds". When you multiply a force measured in 'tons', by a distance measured in 'miles', you get the amount of work done, measured in "ton-miles". When you multiply a force measured in 'newtons', by a distance measured in 'meters', you get the amount of work done, measured in "newton-meters".
Simply multiply force x distance. This assumes that the force is in the same direction as the movement.
Direction is to the right. Magnitude is 10 Newtons.
Force: newton Speed: meters/second Direction: An angular unit would usually be used here - either degrees or radians Time: Second Velocity: Same as speed (but a direction must also be specified) Distance: meter
If the force is applied in the same direction in which the ship moves, you simply need to multiply the force (in newton) times the distance (in meter). The answer will be in joule.
The joule is the unit of energy/work. It is equal to the energy (or work) required to apply a force of 1 newton, along a distance of 1 meter (in the same direction as the force).
10N if both forces are in the same direction.
Force applied times the distance traveled is work or energy. Think about it...You apply a force to an object, say: push a crate, and you move it a distance. What has been done?? Work. Work is equivalent to energy and is measured in Newton-meters (Nm) or Joules (J).
Work = force x distance Work = 10N x 4m= 40 joules