Why Does a Disk Begin to Rotate on a Horizontal Surface with Friction?

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A uniform disk on a horizontal surface begins to rotate when a horizontal force is applied, overcoming static friction, which initially keeps the net force at zero. The static friction generates a torque, causing the disk to rotate while its center remains at rest. As the applied force increases, if it exceeds the static friction, the disk accelerates in the direction of the net force. The relationship between linear velocity and angular velocity (v = rω) helps determine the friction force involved. Energy loss during rotation is attributed to air resistance and rolling resistance at the contact point.
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Homework Statement


A horizontal force is exerted on a uniform disk towards the center of mass resting on a horizontal table. The surface has friction. How does the disk begin to move ? Because when the force increases from zero, at first the friction is static friction which means the net force is still zero but the static friction can form a torque on the disk which will make it rotate. It is absurd that the center of the disk is at rest while the disk begins to rotate.


Homework Equations





The Attempt at a Solution


 
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Hi VictoriaWoo! Welcome to PF! :smile:
VictoriaWoo said:
How does the disk begin to move ? Because when the force increases from zero, at first the friction is static friction which means the net force is still zero but the static friction can form a torque on the disk which will make it rotate. It is absurd that the center of the disk is at rest while the disk begins to rotate.

The friction is less than the applied force …

so the torque is "forward", and the centre of mass moves forward …

the rolling constraint, v = rω , combined with the equations for force and torque, enable you to find the friction force :wink:
 
If the friction is smaller then the force applied to its center of mass there is a net force on the body, this causes body to accelerate in the direction of the net force a = F/m.
 
Why the friction can be smaller than the force? What determines the friction? And how does a disk rotating on a horizontal surface with friction come to terminal when it rotates without slipping and static force does not turn the kinetic energy into heat?
 
VictoriaWoo said:
Why the friction can be smaller than the force? What determines the friction?

the rolling constraint, v = rω , combined with the equations for force and torque, enable you to find the friction force …

write out the equations, and see :smile:
And how does a disk rotating on a horizontal surface with friction come to terminal when it rotates without slipping and static force does not turn the kinetic energy into heat?

air resistance, and energy lost through deformation of the disk at the instantaneous point of contact (rolling resistance)
 

Thread 'Rolling without slipping on a curved surface'

Kindly see the attached pdf. My attempt to solve it, is in it. I'm wondering if my solution is right. My idea is this: At any point of time, the ball may be assumed to be at an incline which is at an angle of θ(kindly see both the pics in the pdf file). The value of θ will continuously change and so will the value of friction. I'm not able to figure out, why my solution is wrong, if it is wrong .
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TL;DR Summary: I came across this question from a Sri Lankan A-level textbook. Question - An ice cube with a length of 10 cm is immersed in water at 0 °C. An observer observes the ice cube from the water, and it seems to be 7.75 cm long. If the refractive index of water is 4/3, find the height of the ice cube immersed in the water. I could not understand how the apparent height of the ice cube in the water depends on the height of the ice cube immersed in the water. Does anyone have an...
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