Wiki User
∙ 6y agoConservation of momentum.
Wiki User
∙ 6y agoWiki User
∙ 7y agoKinetic energy.
kinetic
it change into potential energy beace it slows down
It's probably a bit of both. As long as the bike is moving it'll have some kinetic energy. If it's moving uphill it'll be gaining potential energy and if it's moving downhill it'll be losing potential energy.
A bicycle often "coasts along".
There is no change. The bike is moving along a horizontal surface, and only a change in height can change the gravitational PE.
Letting gravity roll the car along... as on a hill or gradient.... and with the engine off or the gears in neutral.
The pedals, crank, chain, sprockets, and wheels. Along with the rider, they all work together to make the bicycle go.
First it's chemical energy from eaten food that turns into heat, a little bit of kinetic energy and potential energy(pushing the bike uphill). Then it's potential energy turning into kinetic energy and a little bit of heat, along with some further chemical energy being used up.(coasting down)
It is a compound made up (by a French bicycle manufacturer in the 1800s) from the Latin roots velox (fast, swift) and pes (foot), so something along the lines of "fleet of foot".An early bicycle propelled by pushing the feet along the ground while straddling the vehicle.
As the skateboard slows down and comes to a stop, the kinetic energy is transferred into other forms, mainly heat and sound. Friction between the wheels and the surface, as well as air resistance, cause the skateboard's kinetic energy to be dissipated as heat and sound energy.
The energy of your motion transformed into other forms of energy, such as heat and sound, due to factors like friction between the bike's tires and the road. Kinetic energy from your forward motion was converted into kinetic energy between the tires and road, as well as heat energy due to friction, causing the bike to slow down and eventually stop.
The General Lee Bicycle