Two small rings `O` and `O'` are put on two vertical stationery rods `AB` and `A'B'`, respectively. One end of an inextensible thread is tied at point `A'`. The thread passes through ring `O'` and its other end is tied to ring `O`.
Assuming that ring `O'` moves downwards at a constant velocity `v_(1)`, determine the velocity `v_(2)` of the ring `O`, when `/_AOO'=alpha`.

Two small rings O and O' are put on two vertical stationary rods AB and A'B', respectively. One end of an inextensible thread is tied at point A'. The thread passes through ring O' and its other end is tied to ring O. Assuming that ring O' moves downwards at a constant velocity v_(1) , then velocity v_(2) of the ring O, when /_AOO'=alpha is

Two rings O and O' are put on two vertical stationary rods AB and A'B' respectively as shown in figure. An inextensible string is fixed at point A' and on ring O and is passed through O' moves downwards at a constant speed v, find the velocity of the ring O in terms of alpha .

A ring A which can slide on a smooth wire is connected to one end of a string as shown in fig. Other end of the string is connected to a hanging mass B. Find the speed of the ring when the string makes an angle theta with the wire and mass B is going down with a velocity v.

A particle is moving in a straight line and passes through a point O with a velocity of 6ms^(-1) The particle moves with a constant retardation of 2ms^(-2) for 4 s and there after moves with constant velocity. How long after leaving O does the particle return to O

A homogeneous rod AB of length L = 1.8 m and mass M is pivoted at the center O in such a way that it can rotate it can rotate freely position. An insect S of the same mass M falls vertically with speed V on the point C, midway between the points O and B. Immediately after falling, the insect moves towards the end B such that the rod rotates with a constant angular velocity omega. (a) Determine the angular velocity omega in terms of V and L. (b) If the insect reaches the end B when the rod has turned through an angle of 90^@ , determine V.

The moment of inertia of a uniform rod about a perpendicular axis passing through one end is I_(1) . The same rod is bent into a ring and its moment of inertia about a diameter is I_(2) . Then I_(1)//I_(2) is

An isotropic point source kept at 'O' produces intensity l_(0) at point A. find the mean energy flow rate through a ring centred at A and having its plane perpendicular to the line OA. The distance OA is x arid radius of ring is R.

A uniform conducting wire is used to make a ring and its two diameters AB and CD. The ring is placed in a uniform magnetic field B perpendicular to its plane. The resistance of the wire per unit length is lambda Omega//m . (a) Find the current in BO and BC when the ring is moved with constant velocity v in its plane. (b) Find current in BO and BC when the ring is kept stationary but the magnetic field is increased at a constant rate of (dB)/(Dt) = alpha T//s . Assume that magnetic field is confined inside the circular ring only. Take radius of the ring to be a.