A question about the rotation of points on a wheel

BadgerBadger92 · 2026-05-29T13:58:56-0500

I have heard on several sites that the bottom of a wheel or ball that’s rolling is not moving at all. How does this work? I can’t quite wrap my head around this one lol

hutchphd · 2026-05-29T14:15:15-0500

Of course you should say "moving relative to the ground". If the cart on which the wheel is attached is moving at speed v then the wheel will rotate such that the bottom of the wheel is at 0 and the top of the wheel moves at 2v (relative to ground) ,assuming unimpeded rotation.

Parthib Roy · 2026-05-29T14:21:22-0500

the bottom of the wheel acts as a instantaneous axis of rotation ,so as to simplify the part of the wheel in contact with the ground acts as a hinge on which the top of the wheel rotates

Ibix · 2026-05-29T14:24:38-0500

If it were moving relative to the ground it would be sliding.

Think about what the wheel looks like if you've lifted the car up on jacks and then started it. The bottom of the wheel is moving backwards, right? Now if the car is going forwards, and the bottom of the wheel is going backwards, the velocities might cancel - and in fact they must cancel or the wheel would be slipping against the ground.

berkeman · 2026-05-29T14:48:00-0500

Have a look at this article about the Cycloid motion of a point on a wheel:

https://en.wikipedia.org/wiki/Cycloid

https://upload.wikimedia.org/wikipedia/commons/6/69/Cycloid_f.gif

BadgerBadger92 · 2026-05-29T15:14:31-0500

Do you know of any good videos about this? I learn best visually and from videos.

berkeman · 2026-05-29T16:19:04-0500

I did this Google Videos search and got good hits:

Herman Trivilino · 2026-05-29T20:06:49-0500

It's not moving only at the instant it makes contact.

haruspex · 2026-05-30T01:49:53-0500

"not moving at all" may be misleading. Its instantaneous velocity is zero, but it is accelerating upwards.

A.T. · 2026-05-30T02:23:16-0500

@BadgerBadger92
It's a bit like an object thrown vertically upwards, when it's at the highest point of its trajectory:
- vertical velocity passes though zero at some time point, but doesn't remain zero for any finite time interval. The vertical acceleration is non-zero all the time

For the point on the outer wheel it's similar but in two dimensions:
- vertical velocity passes through zero at the lowest position, but vertical acceleration is non zero
- horizontal velocity touches zero at the lowest position, while horizontal acceleration passes through zero
Again, only at some timepoint, not for any finite time interval.

Also note that this is completely frame dependent. You can choose a reference frame to have any instantaneous point of rotation you want.

tech99 · 2026-05-30T03:57:11-0500

Another interesting case is the bottom point of a train wheel, which is travelling backwards.

sophiecentaur · 2026-05-30T05:23:22-0500

There are a number of fairground rides which combine circular motions to give this sort of effect. I seem to remember the Octopus ride ?? Every so often you were stationary relative to a spectator and then you were whipped away. (Really unpleasant for an adult.)
Better than a video but could make you unwell.

A question about the rotation of points on a wheel

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