A seed is on a turntable rotating at 331/3 rev/min, 6.0 cm from the rotation axis. What are (a) the seed's acceleration and (b) the least coefficient of static friction to avoid slippage? ( c) If the turntable has undergone constant angular acceleration from rest in 0.25 s, what is the least coefficient to avoid slippage?

A coin is placed on the horizontal surface of a rotation disc. The distance of the coin from the axis is 1 m and coefficient of friction is 0.5. If the disc starts from rest and is given an angular acceleration (1)/(sqrt(2)) rad / sec^(2) , the number of revolutions through which the disc turns before the coin slips is

A square plate of mass 120g and edge 5.00 cm rotates about one of the edges. If it has a unifrom angular acceleration of 0.2 rad/s^2 , what torque acts on the plate?

Two equal masses m are attached by a string. One mass lies at radial distance r from the centre of a horizontal turntable which rotates with constant angular velocity omega=2 rad s(1) , while the second hangs from the string inside the tumtable's hollow spindle (see fig.) The coefficient of static friction between the turntable and the mass lying on it is mu_(s)=0.5 . The maximum and minimum values of radius such that the mass lying on the turntable does not slide are r_("max")+r_("min") in meter is

A wheel starting from rest ia rotating with a constant angular velocity of 3 rad s^-1 . What is its angular acceleration after 4 s?

A flywheel with a diameter of 1.20 m is rotating at an angular speed of 200 rev/min. (a) What is the angular speed of the flywheel in radians per second? (b) What is the linear speed of a point on the rim of the flywheel? ( c) What constant angular acceleration (in revolutions per minute-squared) will increase the wheel's angular speed to 1000 rev/min in 60.0 s? (d) How many revolutions does the wheel make during that 60.0 s?

A very small cube of mass m is placed on the inside of a conial funnelof semivertical angle (pi//2-theta) . The funnel is then set in rotation. If the coefficient of static friction between the cube and the funnel is mu and the centre of the cube is at a distance r from the axis of rotation, what are the largest and smallest angular velocities with which the funnel can be rotated so that the block will not move with respect to the funnel ?

The coefficient of static friction between a small coin and the surface of a turntable is 0.30 . The turntable rotates at 2 rad s^(-1) . What is maximum distance from the centre of the turntable at which the coin will not slide ?