If sally and Sam both push on a box with a force of 40,n but in opposite directions what will happen to the box
If Sally and Sam both push on a box with a force of 40 N but in opposite directions, the box will experience a net force of zero. The forces exerted by Sally and Sam cancel each other out, resulting in no overall movement or acceleration of the box. The box may, however, experience a slight compression or deformation due to the opposing forces.
When Sally and Sam push on a box with a force of 40 N in opposite directions, the box will experience a net force of zero. This is because the forces applied by Sally and Sam cancel each other out due to their opposite directions. Consequently, the box will remain at rest or continue moving at a constant velocity if it was already in motion.
When Sally and Sam push on a box with a force of 40 N in opposite directions, the box will experience a net force.
To determine what will happen to the box, we need to analyze the forces acting on it. In this case, we have two forces in opposite directions: one applied by Sally and the other applied by Sam.
Since the forces are equal in magnitude (40 N) but in opposite directions, they will cancel each other out. This cancellation occurs because forces in opposite directions subtract from each other.
So, the net force acting on the box is 0 N. When the net force is zero, the box will remain at rest or maintain a constant velocity if it was already moving. In other words, the box will not move due to the balanced forces acting on it.