The problem of a disc or cylinder initially rolling with slipping on a surface and subsequently transitioning to rolling without slipping is often cited in textbooks [1-2]. Students struggle to qualitatively understand the difference between kinetic and static frictional forces—i.e., whereas the module of the former is known, that of the latter can only be described in terms of an inequality while the relative velocity at the point(s) of contact is equal to zero. In addition, students have difficulty understanding that frictional forces can act in the direction of motion—i.e., they can accelerate object
Several scenarios used to teach mechanics feature a rolling motion with slipping that transitions to...
The paper presents an activity sequence aimed at elucidating the role of sliding friction forces in ...
A slightly tilted vertical cylinder on a table-top rights itself, coming to a halt after "rocking" f...
The problem of a disc or cylinder initially rolling with slipping on a surface and subsequently tran...
A bicycle wheel that was initially spinning freely was placed in contact with a rough surface and a...
A well-known classroom demonstration involves the rolling of hollow and solid objects down an inclin...
In this work we describe the cycle of design, implementation, evaluation and redesign of a teaching...
The problem of a wheel under tractive rolling of Carter is revisited here by assuming a slip-depende...
This paper describes an experiment with two touching rotating disks, whose movement is followed by v...
We designed a teaching–learning sequence on rolling motion, rooted in previous research about studen...
A spinning disk on a rough horizontal surface is a familiar example presented in the textbooks of cl...
Friction force stops or decreases the kinetic energy of a sliding object. However, in rolling objec...
We present an experimental study of the motion of a circular disk spun onto a table. With the help o...
Dissipative losses in ball bearings occur due to slippage in machine parts. This study examines how ...
In this work I examine the counterintuitive accelerating rotation of a disk-shaped object, such as a...
Several scenarios used to teach mechanics feature a rolling motion with slipping that transitions to...
The paper presents an activity sequence aimed at elucidating the role of sliding friction forces in ...
A slightly tilted vertical cylinder on a table-top rights itself, coming to a halt after "rocking" f...
The problem of a disc or cylinder initially rolling with slipping on a surface and subsequently tran...
A bicycle wheel that was initially spinning freely was placed in contact with a rough surface and a...
A well-known classroom demonstration involves the rolling of hollow and solid objects down an inclin...
In this work we describe the cycle of design, implementation, evaluation and redesign of a teaching...
The problem of a wheel under tractive rolling of Carter is revisited here by assuming a slip-depende...
This paper describes an experiment with two touching rotating disks, whose movement is followed by v...
We designed a teaching–learning sequence on rolling motion, rooted in previous research about studen...
A spinning disk on a rough horizontal surface is a familiar example presented in the textbooks of cl...
Friction force stops or decreases the kinetic energy of a sliding object. However, in rolling objec...
We present an experimental study of the motion of a circular disk spun onto a table. With the help o...
Dissipative losses in ball bearings occur due to slippage in machine parts. This study examines how ...
In this work I examine the counterintuitive accelerating rotation of a disk-shaped object, such as a...
Several scenarios used to teach mechanics feature a rolling motion with slipping that transitions to...
The paper presents an activity sequence aimed at elucidating the role of sliding friction forces in ...
A slightly tilted vertical cylinder on a table-top rights itself, coming to a halt after "rocking" f...