The Principles of Force and Motion: A Weight Lifter's Struggle

Have you ever wondered about the forces at play when a weight lifter holds a heavy barbell?

What happens to the forces when the barbell is at rest, moving upward, or moving downward?

Understanding the Forces at Play

When the barbell is at rest, the forces are balanced. When the barbell is moving upwards, the lifter exerts a greater force than the barbell. When the barbell is moving downwards, the barbell exerts a greater force than the lifter.

The comparison of forces exerted by the weight lifter and the barbell is guided by Newton's Third Law of Motion, which says every action has an equal and opposite reaction. The weight lifter exerts an equal force when the barbell is at rest, a greater force when moving it upward, and a smaller force when it's moving downward.

The forces exerted by the weight lifter and the barbell are described by Newton's Third Law of Motion, which states that for every action, there is an equal and opposite reaction. Let's analyze each situation:

  • With the barbell at rest: The weight lifter exerts an upward force equal to the weight of the barbell, which is exerting an equal downward force due to gravity.
  • With the barbell moving upward: The weight lifter must exert a larger force than the barbell's weight (since he's overcoming gravity to lift it), so in this case, the force the weight lifter exerts on the barbell is greater than the force the barbell exerts on him.
  • With the barbell moving downward: Now, gravity is aiding the barbell's motion, so the weight lifter must exert a force less than the barbell's weight to slow it down. Thus, the force the weight lifter exerts on the barbell is less than the force the barbell exerts on him.
← Calculating safe speed range for a banked curve An ideal fluid flow calculation speed volume flow rate and pressure change →