Question

The Gravitational Force Acting On A Lead Ball Is Much Larger Than That Acting On A Wooden Ball Of The Same Size. Which Statement Is True About When They Are Dropped? The Acceleration Due To Gravity Is The Same For Both Balls. The Lead Ball’s Acceleration Due To Gravity Is Larger Than The Wooden Ball’s. The Lead Ball’s Acceleration Due To Gravity Is Less

1. The gravitational force acting on a lead ball is much larger than that acting on a wooden ball of the same size. Which statement is true about when they are dropped?


A boy stits at rest on the floor. Which of the following statements are true? Check all that apply.

A. The boy experiences an upward normal force. The boy experiences an upward normal force.

B. The boy experiences a downward normal force. The boy experiences a downward normal force.

C. The boy experiences an upward weight force. The boy experiences an upward weight force.

D. The boy experiences a downward weight force.
decimal place.)

Answer 1

The acceleration due to gravity is larger for the lead ball compared to the wooden ball of the same size when they are dropped.

Step-by-step explanation:

The statement that is true about when they are dropped is The Lead Ball’s Acceleration Due To Gravity Is Larger Than The Wooden Ball’s.

According to Newton's second law of motion and the law of universal gravitation, the gravitational force acting on an object is directly proportional to its mass. Since the lead ball has a greater mass than the wooden ball of the same size, the gravitational force acting on the lead ball is larger.

However, the acceleration due to gravity is the same for both objects. The acceleration due to gravity, represented by the symbol g, is a constant value of approximately 9.80 m/s² on Earth.