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Technically as you go up the hill Gravity will decrease.But the amount is too small to measure by anymethod currently available.So in effect and for practical purposes, NO
Gravity adds a force (kgs) going downhill = sin (incline angle) * mass vehicle (kgs) and detracts the force when going uphill (same equation)
Only if the bike is coasting uphill.
It requires extra power to go uphill, against the pull of gravity.
Gravity if going uphill. Friction.
Technically as you go up the hill Gravity will decrease.But the amount is too small to measure by anymethod currently available.So in effect and for practical purposes, NO
it is both kinetic and potential energy
Gravity
Gravity is trying to push the car down the hill. It takes more power to overcome that push of gravity. Unless you give the car more gas it will slow down.
gravity!
gravity!
Gravity.
Only if the bike is coasting uphill.
Gravity adds a force (kgs) going downhill = sin (incline angle) * mass vehicle (kgs) and detracts the force when going uphill (same equation)
It requires extra power to go uphill, against the pull of gravity.
Gravity if going uphill. Friction.
Water can defy the force of gravity and flow uphill. This is possible when a device called a hydraulic ram is used. A wick action such as a rope can cause the water to flow uphill.