While you push a box you begin to decrease the force you are exerting on the box. When will the box reach equilibrium?(1 point)%0D%0AResponses%0D%0A%0D%0AThe box will never reach equilibrium. %0D%0AThe box will never reach equilibrium. %0D%0A%0D%0AWhen the Fyou on box =−Fbox on you %0D%0AWhen the upper F subscript ball on bat baseline equals negative upper F subscript bat on ball baseline%0D%0A%0D%0AWhen the force you are exerting on the box is equal to 0.%0D%0AWhen the force you are exerting on the box is equal to 0.%0D%0A%0D%0AWhen the the force of the box becomes Fyou on box <Fbox on you
The correct response is: When the force you are exerting on the box is equal to 0.
The correct response is: When the force you are exerting on the box is equal to 0.
To answer this question, we need to understand the concept of equilibrium and the forces involved.
Equilibrium occurs when all the forces acting on an object balance each other out, resulting in no net force acting on the object. In the case of pushing a box, there are two main forces at play: the force you exert on the box (Fyou on box) and the force the box exerts on you (Fbox on you).
In order for the box to reach equilibrium, the forces must be equal and opposite, meaning Fyou on box = -Fbox on you. This condition ensures that there is no net force acting on the box.
Now, let's consider the scenario in the question. As you push the box, if you start decreasing the force you are exerting on the box, the force Fyou on box will become smaller. At some point, when the force Fyou on box becomes less than the force Fbox on you, the box will not be in equilibrium anymore. This happens because the external forces on the box are no longer balanced.
Therefore, the correct response would be: "When the force you are exerting on the box is equal to 0." At this point, when you stop pushing the box and the force you exert becomes zero, the box will no longer be in motion and will reach equilibrium.