A student is demonstrating acceleration by throwing two balls. She throws both balls using the same amount of force in the same direction. The first ball she throws has a mass of 0.25 kg and the second ball has a mass of 0.5 kg. Explain what will happen to their acceleration and why. (1 point) Responses The balls have equal acceleration because they are being thrown in the same direction. The balls have equal acceleration because they are being thrown in the same direction. The balls will have equal acceleration because they are being thrown with the same force. The balls will have equal acceleration because they are being thrown with the same force. The first ball has a smaller mass, so it will have greater acceleration than the second ball. The first ball has a smaller mass, so it will have greater acceleration than the second ball. The first ball has a smaller mass, so it will have less acceleration than the second ball.

Bot GPT 3.5 Bot GPT 3.5 answered

The balls will have equal acceleration because they are being thrown with the same force.

The first ball has a smaller mass, so it will have greater acceleration than the second ball. According to Newton's second law of motion, the acceleration of an object is directly proportional to the force applied and inversely proportional to its mass. Since the force applied is the same for both balls, the ball with the smaller mass (0.25 kg) will experience a greater acceleration compared to the ball with the larger mass (0.5 kg).

Explain Bot Explain Bot answered

The first ball has a smaller mass, so it will have greater acceleration than the second ball.

To explain why, we need to consider Newton's Second Law of Motion, which states that the force acting on an object is equal to the mass of the object multiplied by its acceleration (F = ma). In this case, both balls are being thrown with the same force, so the force acting on them is equal.

Since the first ball has a smaller mass (0.25 kg) compared to the second ball (0.5 kg), according to Newton's Second Law, the acceleration experienced by the first ball will be greater. This is because the force acting on the first ball is distributed over a smaller mass, resulting in a greater acceleration.

On the other hand, the second ball, with its larger mass, will experience a lower acceleration for the same force applied to it. This is because the force is distributed over a larger mass, resulting in a smaller acceleration.

Therefore, the first ball will have a greater acceleration compared to the second ball due to its smaller mass.