What is the difference between sliding and rolling of a wheel?

In summary, the conversation discusses the difference between spinning, sliding, and rolling of a wheel on a wet surface. Spinning occurs when the wheel rotates but its center remains at rest, while sliding occurs when the wheel moves forward and only one point on the wheel is in contact with the surface. Rolling, on the other hand, refers to when the arc painted on the wheel is equal in length to the line traced on the surface.
  • #1
teng125
416
0
can anyone pls explain to me what is sliding and rolling of a let say a wheel??I'm really confuse about it
thanx
 
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  • #2
Ok:
Imagine a surface wetted with paint, and place a moving wheel upon it.
Now, there are two extremes that may happen:

1) The wheel is merely rotating, but its center is at rest.
Thus, gradually, the whole rim of the wheel gets painted, but on the SURFACE, paint is only removed from a SINGLE point (the contact point).

We say that the wheel is SPINNING.

2) The wheel moves forward, but the only point on the wheel that gets painted is the one point always in contact with the surface.
On the SURFACE, a line is traced out in the paint.

We say that the wheel is SLIDING.

And then:
With ROLLING, we mean that the arc painted onto the wheel is always of equal length as the line traced out on the wetted surface.
 
  • #3
ok.thanx...
 

What is the definition of kinetics of rigid bodies?

Kinetics of rigid bodies is the study of motion and forces of solid objects that do not deform under the action of external forces.

What are the key principles of kinetics of rigid bodies?

The key principles of kinetics of rigid bodies include Newton's laws of motion, conservation of momentum, and conservation of energy.

What is the difference between translational and rotational motion of rigid bodies?

Translational motion refers to the movement of a rigid body in a straight line, while rotational motion refers to the movement of a rigid body around a fixed axis.

What is the moment of inertia in relation to kinetics of rigid bodies?

Moment of inertia is a measure of an object's resistance to rotational motion, and it plays a crucial role in determining the rotational behavior of rigid bodies.

How does the shape and mass distribution of a rigid body affect its motion?

The shape and mass distribution of a rigid body affect its moment of inertia, which in turn affects its rotational motion. Objects with a greater moment of inertia will have a slower rotational motion compared to objects with a smaller moment of inertia.

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