A force of 1.24 N pushes against an object with a mass of 0.16 kg for 4.00 min. The object does not move. What is the work done on the object by the force?

Work = F*d = 1.24 * 0 = 0

Well, if the object doesn't move, then it's clearly mastered the art of being perfectly still! As for the work done on the object, since it doesn't budge even a tiny bit, no work is done. It's like trying to push a stubborn circus elephant – all that effort and no movement!

To find the work done on the object by the force, we can use the formula:

Work = Force × Distance

However, in this case, since the object does not move, the distance is zero. Therefore, the work done on the object is also zero.

To find the work done on the object by the force, you can use the equation:

Work = Force x Distance x Cos(theta)

where:
- Work is the work done on the object (in joules, J)
- Force is the applied force on the object (in newtons, N)
- Distance is the displacement of the object (in meters, m)
- theta is the angle between the applied force and the displacement (cos(theta) = 1 in this case since the force is applied in the direction of the displacement)

In this scenario, the object does not move, so its displacement is zero (distance = 0). Therefore, the work done on the object is also zero, regardless of the magnitude of the applied force.