Can a rider change the combined center of gravity of a motorcycle by leaning?

In summary: The front and rear tires then steer in opposite directions, with the rear tire steering in the same direction as the rider leans. The effect is the bike leans in the same direction as the rider, but at a greater angle.
  • #1
Erunanethiell
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In a closed system, I know the rider wouldn't be able to change the combined center of gravity of the system by moving his weight around. If he pushes the bike to lean to the right, he would go to the left by the amount that would keep the combined cog the same.

But a bike with tires and a road under it is not a closed system, the tires wouldn't let the lower part of the bike left or right when tryingo to initiate lean. Does this mean it is possible to push with your bodies inertia to the bike, and the combined cog will be changed? I thing if you do so above the cog of the bike, you could, but I am not sure.
 
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  • #2
It is a bit like a swing set where you can start swinging without touching the ground - just as inverted pendulum, with the support below the bike instead of above the swing.
 
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  • #3
Why does it work if it wouldn't work in a closed system? Is it because tires stop the lower part of the bike move laterally?
 
  • #4
Right. Friction (and the non-zero contact width) can lead to a net force and torque on the system.
 
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  • #5
mfb said:
It is a bit like a swing set where you can start swinging without touching the ground - just as inverted pendulum, with the support below the bike instead of above the swing.
In the case of a swing, the supporting chains or ropes are displaced forwards or backwards by the person leaning forwards or backwards, pushing forward or pulling backwards on the supporting chains or ropes, resulting in a backwards or forwards component of tension in the supporting chains or ropes, and this initiates movement.

Erunanethiell said:
In a closed system, I know the rider wouldn't be able to change the combined center of gravity of the system by moving his weight around. If he pushes the bike to lean to the right, he would go to the left by the amount that would keep the combined cog the same.

But a bike with tires and a road under it is not a closed system, the tires wouldn't let the lower part of the bike left or right when trying to initiate lean. Does this mean it is possible to push with your bodies inertia to the bike, and the combined cog will be changed? I thing if you do so above the cog of the bike, you could, but I am not sure.
The bikes effective angular inertia, which is affected by the gyroscopic reactions in the wheels, resists a change in lean angle due to the rider leaning to one side or the other. The result is some of that force is applied to the pavement, coexistent with the pavement applying a force onto the bike in the same direction as the rider leans.

The dominant effect is related to steering. On a typical bike, the point of contact of the front tire is "behind" the pivot axis, so if the rider leans to the left, the front tier initially steers to the right, an indirect form of counter steering.
 

What is the center of gravity on a motorcycle?

The center of gravity on a motorcycle is the point where all of the bike's weight is evenly distributed. It is typically located near the engine and slightly above the ground.

Why do motorcycles lean when turning?

Motorcycles lean when turning because of the principle of countersteering. This means that the rider must push on the handlebars in the opposite direction of the turn, causing the bike to lean and turn.

How does weight distribution affect a motorcycle's handling?

The distribution of weight on a motorcycle can greatly affect its handling. Too much weight in the front can cause the bike to be unstable and difficult to turn, while too much weight in the back can make it difficult to maintain control. Proper weight distribution is important for safe and efficient riding.

What is the difference between kinetic and potential energy in a moving motorcycle?

Kinetic energy is the energy of motion, while potential energy is the stored energy of an object. In a moving motorcycle, kinetic energy is constantly being converted from potential energy (stored in the fuel and the bike's position) as the engine burns fuel and the bike moves forward.

How does wind resistance affect a motorcycle's speed and fuel efficiency?

Wind resistance, also known as drag, can greatly affect a motorcycle's speed and fuel efficiency. The faster a motorcycle travels, the more wind resistance it will face, which can cause it to use more fuel to maintain its speed. To combat this, riders often tuck in close to the bike to reduce their own drag and improve the bike's aerodynamics.

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