What happens to kinetic energy when you’re riding downhill?

When riding downhill, the kinetic energy of the object (e.g., a cyclist or a vehicle) increases. As the object moves downhill, it gains speed and therefore its kinetic energy increases. This increase in kinetic energy is a result of the conversion of potential energy to kinetic energy as the object moves from a higher elevation to a lower elevation.

Gravity plays a significant role in increasing the kinetic energy while riding downhill. As the object descends, gravity pulls it downwards, accelerating it and converting potential energy into kinetic energy. The acceleration due to gravity causes the object to gain speed, ultimately increasing its kinetic energy.

It is worth noting that other factors, such as air resistance and friction, can impact the kinetic energy to some extent. However, in the absence of significant resistance forces, the kinetic energy of an object will generally increase while riding downhill.