A gramophone record is revolving with an angular velocity `omega`. A coin is placed at a distance `R` from the centre of the record. The static coefficient of friction is `mu`. The coin will revolve with the record if

A long playing record revolves with a speed of 33 (1/4) rev/min. and has a radius of 15 cm. Two coins are placed at 4 cm and 14 cm away from the centre of the record. If the coefficients of friction between the coin and the record is 0.15, which of the two coins will revolve with record ?

A long plying record revolves with a speed of 33 (1)/(3) "rev min"^(-1) , and has a radius of 15 cm. Two coins are placed at 4 cm and 14 cm away from the centre of the record. If the coefficient of friction between the coins and the record is 0.15, which of the two coins will revolve with the record ? Take g = 9.8 ms^(-2) .

A disc revovles with a speed of 33 (1)/(3) rev//min and has a radius of 15 cm Two coins are palaced at 4 cm and 14 cm away from the center of the record If the coefficient of friction between the coins and the record is 0.5 which of the coins will revolve with the road ?

An alpha is moving along a circle of radius R with a constant angular velocity omega . Point A lies in the same plane at a distance 2R from the centre. Point A records magnetic field produced by the alpha -particle. If the minimum time interval between two successive time at which A records zero magnetic field is t, the angular speed omega , in terms of t, is

A ring of radius R is rotating with an angular speed omega_0 about a horizontal axis. It is placed on a rough horizontal table. The coefficient of kinetic friction is mu_k . The time after it starts rolling is.

A gramophone disc rotates at 60 rpm . A coin of mass 18 g is placed at a distance of 8 cm from the centre . Calculate centrifugal force on the coin . Take pi^(2) = 9. 87 .

A disc of radius R=2m starts rotating wth constant angular acceleration alpha=(2rad)//s^(2) . A block of mass m=2kg is kept at a distance (R)/(2) from the centre of disc. The coeffiecient of friction between disc and block is mu_(s)=0.4,mu_(k)=0.3 . Acceleration of block when it just slips w.r.t. ground and w.r.t. disc are respectively - ( g=10ms^(-2) )

A cylinder rests on a horizontal rotating disc, as shown in the figure. Find at what angular velocity, omega , the cylinder falls off the disc, if the distance between the axes of the disc and cylinder is R , and the coefficient of friction mugtD//h where D is the diameter of the cylinder and It is its height.

A small coin is placed at a distance r from the centre of a gramophone record.The rotational speed of the record is gradually increased. If the coefficient of friction between the coin and the record is mu, the minimum angular frequency of the record for which the coin will fly off is given by :

A cylinder of mass m radius R is spined to a clockwise angular velocity omega_(o) and then gently placed on an inclined plane for which coefficient of friction mu = tan theta, theta is the angle of inclined plane with the horizontal. The centre of mass of cylinder will remain stationary for time