A crane stands on a level ground. It is represented by a tower ABCD, of height 11 m and a jib BR. The Jib is of length 20 m and can rotate in a vertical plane about B.A vertical cable, RS, carries a load S. the diagram shows current position of the jib, cable and load.


The measure of the angles BRS, is

A crane stands on a level ground. It is represented by a tower ABCD, of height 11 m and a jib BR. The ib is of length 20 m and can rotate in a vertical plane about B.A vertical cable, RS, carries a load S. the diagram shows current position of the jib, cable and load. The length BS is

A crane stands on a level ground. It is represented by a tower ABCD of height 11 m and BR. The ib is of length 20 m and can rotate in a vertical plane about B.A vertical cable, RS, carries a load S. the diagram shows current position of the jib, cable and load. The angle that the jib, BR, makes with the horizontal, is

One end of a uniform rod of mass M and length L is supproted by a frictionless hinge which can with stand a tension of 1.75 Mg . The rod is free to rotate in a vertical plane. The maximum angle should the rod be rotated from the vertical position so that when left, the hinge does not brek is (pi)/n

A weightless rod of length 2l carries two equal masses 'm', one tied at lower end A and the other at the middle of the rod at B . The rod can rotate in vertical plane about a fixed horizontal axis passing thriugh C . The rod of is released from rest in horizontal possion. The speed of the mass B at the instant rod become vertical is:

In the figure shown one end of a light spring of natural length l_(0)=sqrt(5/8)m(~~0.8m) is fixed at point D and other end is attached to the centre B of a uniform rod AF of length l_(0)//sqrt(3) and mass 10kg. The rod is free to rotate in a vertical plane about a fixed horizontal axis passing through the end A of the rod. The rod is held at rest in horizontal position and the spring is in relaxed state. It is found that, when the rod is released to move it makes an angle of 60^(@) with the horizontal when it comes to rest for the first time. Find the (a) the maximum elogation in the spring . (Approximately) (b) the spring constant. (Approximately)

An electrometer consister of a fixed vertical metal bar OB at the top of which is attached a thin rod OA which gets deflected from the bar under the action of an electric charge (fig.). The rod can rotate in vertical plane about fixed horizontal axis passing through O. The reading is taken on a quadrant graduated in degrees. The length of the rod is l and its mass is m. what will be the charge when the rod of such an electrometer is deflected through an angle alpha in equilibrium. Find the answer using the following two assumptions : The charge on the electrometer is equally distributed between the bar & the rod and the charges are concentrated at point A on the rod & at point B on the bar.

A uniform rod of mass m and length l can rotate in vertical plane about a smooth horizontal axis hinged at point H . Find angular acceleration alpha of the rod just after it is released from initial position making an angle of 37^@ with horizontal from rest?

A weightless rod of length 2l carries two equal masses 'm' , one secured at lower end A and the other at the middle of the rod at B . The rod can rotate in vertical plane about a fixed horizontal axis passing through C . What horizontal velocity must be imparted to the mass at A so that it just completes the vertical circle.