During free fall, as an object descends, potential energy decreases while kinetic energy increases proportionally. Gravity converts potential energy into kinetic energy, accelerating the object downward. Consequently, the object's velocity continuously increases, resulting in an acceleration due toRead more
During free fall, as an object descends, potential energy decreases while kinetic energy increases proportionally. Gravity converts potential energy into kinetic energy, accelerating the object downward. Consequently, the object’s velocity continuously increases, resulting in an acceleration due to gravity until other factors, such as air resistance, become significant.
Air resistance opposes the motion of a falling object by exerting a force in the opposite direction of its velocity. This force dissipates some of the object's kinetic energy as thermal energy, reducing its speed and altering the balance between potential and kinetic energy transformation during freRead more
Air resistance opposes the motion of a falling object by exerting a force in the opposite direction of its velocity. This force dissipates some of the object’s kinetic energy as thermal energy, reducing its speed and altering the balance between potential and kinetic energy transformation during free fall.
During free fall, the decrease in potential energy of an object is directly proportional to the increase in its kinetic energy. As the object descends, gravitational potential energy is converted into kinetic energy, resulting in a continuous transformation between these two forms of energy.
During free fall, the decrease in potential energy of an object is directly proportional to the increase in its kinetic energy. As the object descends, gravitational potential energy is converted into kinetic energy, resulting in a continuous transformation between these two forms of energy.
How does the continual transformation of energy from potential to kinetic energy affect the motion of the object during free fall?
During free fall, as an object descends, potential energy decreases while kinetic energy increases proportionally. Gravity converts potential energy into kinetic energy, accelerating the object downward. Consequently, the object's velocity continuously increases, resulting in an acceleration due toRead more
During free fall, as an object descends, potential energy decreases while kinetic energy increases proportionally. Gravity converts potential energy into kinetic energy, accelerating the object downward. Consequently, the object’s velocity continuously increases, resulting in an acceleration due to gravity until other factors, such as air resistance, become significant.
See lessWhat role does air resistance play in the transformation of energy during free fall?
Air resistance opposes the motion of a falling object by exerting a force in the opposite direction of its velocity. This force dissipates some of the object's kinetic energy as thermal energy, reducing its speed and altering the balance between potential and kinetic energy transformation during freRead more
Air resistance opposes the motion of a falling object by exerting a force in the opposite direction of its velocity. This force dissipates some of the object’s kinetic energy as thermal energy, reducing its speed and altering the balance between potential and kinetic energy transformation during free fall.
See lessWhat is the relationship between the decrease in potential energy and the increase in kinetic energy during free fall?
During free fall, the decrease in potential energy of an object is directly proportional to the increase in its kinetic energy. As the object descends, gravitational potential energy is converted into kinetic energy, resulting in a continuous transformation between these two forms of energy.
During free fall, the decrease in potential energy of an object is directly proportional to the increase in its kinetic energy. As the object descends, gravitational potential energy is converted into kinetic energy, resulting in a continuous transformation between these two forms of energy.
See less