Humans can maintain the stability of riding through extremely complex intuition. For example, when the speed is very low, it is easy for people to realize that it is impossible to control the direction by twisting the handlebar, so it is natural to control the bicycle by shaking the knee.
Bicycles only rely on two wheels to touch the ground, but as long as they reach a low speed, they can keep their balance and not roll over. Some skilled people can even leave the handlebar with their hands without worrying about falling. Some studies have attributed the stability of bicycle driving to the gyro effect of wheels, that is, the centrifugal force when the object rotates will keep itself in balance.
Extended data:
Gyro effect:
When the front wheel of a bicycle rotates, its centrifugal force will help to maintain its own balance, just like when the rotating gyro twitches, the gyro will maintain its inertia in the direction of rotation around the axis. One of the most influential explanations of bicycle stability is the gyro effect of bicycle front wheel, so that many popular books use this view to explain bicycle stability.
19 1 1 year, German mathematician Klein and physicist Sommerfeld explained the stability of bicycles with gyro effect in their works on gyro mechanics. The gyro effect is that the rotating object has the same properties as the gyro. "In layman's terms, a rotating object has the inertia to maintain its original rotating state, just like Newton's first law (the law of inertia) describes the inertia of linear motion.
When an object rotates, its centrifugal force will help maintain its own balance, just like when a rotating gyro twitches, it will maintain its inertia in the direction of rotation around its axis.
People's Network-Bikes that can't be ridden have puzzled scientists for 200 years.
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