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.
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.
A constant force of 100 N moving through 3 m performs 300 joules of work.
the answer is 300 j
90 j
90 Joules
Work is force times distance - assuming the force is applied in the same direction as the movement.
Work = force x distance = 15 x 6 = 90 joules
The size of the force must be greater.
because you need the force to move it over some distance
because you need the force to move it over some distance
Work is force times distance - assuming the force is applied in the same direction as the movement.
Work = force x distance = 15 x 6 = 90 joules
a smaller force is exerted over a longer distance.
The size of the force must be greater.
a smaller force is exerted over a longer distance
because you need the force to move it over some distance
because you need the force to move it over some distance
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
because you need the force to move it over some distance
cheeseburger
Pressure
Pressure is the force exerted on an object divided by the area where the pressure was applied.