A solid cylinder of mass `m` is kept in balance on a fixed incline of angle `alpha=37^@` with the help of a thread fastened to its jacket. The cylinder does not slip.

The values of minimum coefficient of static friction between cylinder and incline in the case when `F` is minimum.

A solid cylinder of mass m is kept in balance on a fixed incline of angle alpha=37^@ with the help of a thread fastened to its jacket. The cylinder does not slip. What force F is reqired to kep the cylinder in balance when the thread is held vertically?

A solid cylinder of mass m is kept in balance on a fixed incline of angle alpha=37^@ with the help of a thread fastened to its jacket. The cylinder does not slip. What force F is reqired to kep the cylinder in balance when the thread is held vertically?

A solid cylinder of mass m is kept in balance on a fixed incline of angle alpha=37^@ with the help of a thread fastened to its jacket. The cylinder does not slip. In what direction should the thread be pulled to minimise the force required to hold the cylinder? What is the magnitude of this force?

A solid cylinder of mass m is kept in balance on a fixed incline of angle alpha=37^@ with the help of a thread fastened to its jacket. The cylinder does not slip. In what direction should the thread be pulled to minimise the force required to hold the cylinder? What is the magnitude of this force?

A solid cylinder of mass m is resting on fixed rough inclined plane with help of a thread. Find friction force between cylinder and inclined plane. (given mu = 0.4 )

A solid cylinder of mass 8 kg and radius 50 cm is rolling down a plane inclined at an angle of 30^@ with the horizontal. force of friction on the cylinder is?

A uniform cylinder of mass m lies on a fixed plane inclined at a angle theta with the horizontal. A light string is tied to the cylinder at the rightmost point, and a mass m hangs from the string as shown. Assume that the coefficient of friction between the cylinder and the incline plane is sufficiently large to prevent slipping. for the cylinder to remain static the value of m is

A uniform cylinder of mass m lies on a fixed plane inclined at a angle theta with the horizontal. A light string is tied to the cylinder at the rightmost point, and a mass m hangs from the string as shown. Assume that the coefficient of friction between the cylinder and the incline plane is sufficiently large to prevent slipping. for the cylinder to remain static the value of m is

A uniform cylinder of mass M lies on a fixed plane inclined at a angle theta with the horizontal. A light string is tied to the cylinder at the rightmost point, and a mass m hangs from the string as shown. Assume that the coefficient of friction between the cylinder and the incline plane is sufficiently large to prevent slipping. for the cylinder to remain static the value of m is