Sam Hill
Yes, momentum plays a key role in helping a bike move down a hill. As the bike descends, potential energy is converted into kinetic energy, giving the bike momentum. The momentum propels the bike forward, allowing it to continue down the hill.
Cycle down a hill.
Coasting.
When a bike goes up a hill, mechanical energy from pedaling is converted to gravitational potential energy as the bike gains height. When the bike goes down the hill, the gravitational potential energy is converted to kinetic energy as the bike accelerates. Frictional forces also convert some of the energy to heat.
It makes the bike move smoother over uneven ground, which makes it more controllable.
When you ride a bike down a hill, the force of gravity pulls you and the bike down the slope, causing you to accelerate. Your speed will increase as you descend due to the force of gravity overcoming friction and air resistance. It is important to use the brakes to control your speed and maintain balance while going downhill.
i learnt how to bike on a hill. My dad held my bike and then let me go. It takes a lot of times to master it but while your going down the hill, you should try pedalling!
run walk sled roll ski bike
The two forces acting on a bike slowing down a hill are frictional force, provided by the brakes, and air resistance. Frictional force reduces the bike's speed by applying a backward force on the wheels, while air resistance opposes the bike's motion as it moves through the air.
Potential energy, specifically gravitational potential energy, as the bike has stored energy due to its position at a higher elevation. When the bike is pushed down the hill, this potential energy is converted to kinetic energy as it accelerates.
you would be going north