A wheel is executing pure rolling on a horizontal surface with a speed `v_(0)(v_(0)=Romega)`. The positions of points `A`, `B`, `C` and `D` at `t=0` are shown in figure. Match the entries given in column `I` with those given in column `II`.

Match the entries in column I with those in column II and choose the correct combination from the option given

A wheel ios rolling without sliding on a horizontal surface. The centre of the wheelk moves with a constant speed v_(0) . Consider a point P on the rim which is at the top at time t=0. The square of speed of point P is plooted against time t. The correct plot is (R is radius of the wheel)

A wheel of radius R=2m performs pure rolling on a rough horizontal surface with speed v=10 m/s . In the figure shown, angle theta is angular position of point P on wheel reaches the maximum height from ground. Find the value of "sec"theta (take g=10 m//s^(2) ).

A simple harmonic oscillator consists of a block attached to a spring with k=200N/m. The block slides on a frictionless horizontal surface, with equilibrium point x=0. A graph of the block velocity v as a function of time t is shown. Correct match the required information in the left column with the values given in table.

Given below in Column I are the relations between vectors a,b and c and in Column II are the orientations of a, b and c in the XY - plane . Match the relation in Column I to correct orientations in Column II.

The centre of a wheel rolling without slipping on a plane surface moves with a speed v_(0) . A particle on the rim of the wheel at the same level as the centre of wheel will be moving with speed

the center of a wheel rolling on a plane surface moves with a speed v_(0) . A particle on the rim of the wheel at the same level as the center will be moving at speed

A disc is in the condition of pure rolling on the horizontal surface. The velocity of center of mass is V_0 If radius of disc is R then the speed of point P is (OP =R/3)

A uniform disc of radius R is in pure rolling on a fixed horizontal surface with constant speed v_0 as shown in the figure. For what value of theta , speed of point P will be v_0/2√(5+2√3) ? (OP= R/2 and O is the centre of disc)

Blockes A and B are resting on a smooth horizontal surface given equal speeds of 2ms^(-1) in opposite sense as shown in the figure. At t=0, the position of blocks are shown, then the coordinates of center of mass t=3s will be