A nonzero net force acts on a moving ball, and the ball comes to a stop. Which statement is correct about the relationship between the net force and the ball's movement?(1 point)%0D%0AResponses%0D%0A%0D%0AThe net force causes a decrease in acceleration because without the force the ball's velocity would remain the same. %0D%0AThe net force causes a decrease in acceleration because without the force the ball's velocity would remain the same. %0D%0A%0D%0AAn increase in acceleration causes the net force to be nonzero because causation works in both directions. %0D%0AAn increase in acceleration causes the net force to be nonzero because causation works in both directions. %0D%0A%0D%0AA decrease in acceleration causes the net force to be nonzero because causation works in both directions. %0D%0AA decrease in acceleration causes the net force to be nonzero because causation works in both directions. %0D%0A%0D%0AThe net force causes an increase in acceleration because without the force the ball's velocity would remain the same.
The correct statement is: The net force causes an increase in acceleration because without the force the ball's velocity would remain the same.
The correct statement about the relationship between the net force and the ball's movement is:
"The net force causes a decrease in acceleration because without the force, the ball's velocity would remain the same."
The correct statement about the relationship between the net force and the ball's movement is:
A nonzero net force causes a decrease in acceleration because without the force, the ball's velocity would remain the same.
To understand why this is the correct statement, let's break it down:
1. The net force is the vector sum of all the individual forces acting on an object. It determines how the object's motion changes.
2. If a nonzero net force acts on a moving ball, it means there is an unbalanced force acting on the ball. This unbalanced force will cause the ball to change its motion.
3. According to Newton's second law of motion, the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. As a result, a larger net force will cause a larger acceleration, and a smaller net force will cause a smaller acceleration.
4. In this case, the nonzero net force acts opposite to the ball's initial direction of motion. The force acts to slow down the ball and eventually bring it to a stop. Therefore, the acceleration of the ball decreases as the net force reduces the ball's velocity.
To summarize, when a nonzero net force acts on a moving ball, it causes a decrease in acceleration because it opposes the ball's motion and slows it down until it comes to a stop.