A solid cylinder is given a velocity `v_(0)` and an angular speed `omega_(0)` in the anticlockwise direction and then it is placed gently on a very long rough plank ( initially at rest ) as shown in the figure. Then, choose the incorrect statement `:`

A disc of radius R is moving on a rough horizontal surface with velocity v and angular speed omega at an instant as shown in figure. Choose the correct statement.

A solid sphere is given an angular velocity omega and kept on a rough fixed incline plane. The choose the correct statement.

A solid sphere of radius R is set into motion on a rough horizontal surface with a inear speed v_(0) in forward direction and an angular with a linear speed v_(0) in forward directioin and an angular velocity omega_(0)=v_(0)//2R in counter clockwise direction as shown in figure. If coefficient of friction mu then find a. the time after which sphere starts pure rolling, b. the linear speed of sphere when it starts rolling and c. the work down by friction over a long time.

A disc of the radius R is spun to an angular speed omega_0 about its axis and then imparted a horizontal velocity of magnitude (at t = 0) with its plane remaining vertical. The coefficient of friction between the disc and the plane is mu . The sense of rotation and direction of its linear speed are shown in the figure . Choose the correct statement.

A source of sound and detector are arranged as shown in Fig. The detector is moving along a circle with constant angular speed omega . It start from the shown location in anticlockwise direction at t=0 (Take velocity of sound in air as v) What is the frequency as received by detector, when it rotates by an angle (pi)/(2) ?

A uniform solid sphere of mass m and radius 'R' is imparted an initial velocity v_(0) and angular omega_(0) = (2v_(0))/(R ) and then placed on a rough inclined plane of inclination 'theta' and coefficient of friction mu = 2 tan theta as shown. The time after which the sphere will start rolling without slipping is

A source of sound and detector are arranged as shown in Fig. The detector is moving along a circle with constant angular speed omega . It start from the shown location in anticlockwise direction at t=0 (Take velocity of sound in air as v) Q. Find the time at which the detector will hear the maximum frequency for the first time.

A disc is given an angular velocity omega_(0) and a linear velocity v_(0) as shown in the figure. It is released on a rough horizontal surface of friction coefficient mu. Mark the correct statement (omega_(0)=3v_(0)//R)

A conducting rod AB of length l is rotated about point O with an angular velocity velocity omega in a uniform magnetic field (B_0) directed perpendicular into the plane of rotation as shown in the figure. The value of V_B - V_A is

A rectangular block of size (bbxxh) moving with velocity v_(0) enters on a rough surface where the coefficient of friction is mu as shown in figure. Identify the correct statement.