Four rods each of length `l` have been hinged to from a rhombus. Vertex `A` is fixed to a rigid support vertex `C` is being moved along the `x`-axis with a constant velocity `v` as shown in the figure. The rate at which vertex `B` is approaching the `x`-axis at the moment the rhombus is in the form of a square is

Four rods of side length l have been hinged to form a rhombus. Vertex A is fixed to a rigid support, vertex C is being moved along the x -axis with constant velocity V as shown in figure. The rate at which vertex B is nearing the x -axis at the moment the rhombus is in the form of a squarem is

A particle of mass m moves in the XY plane with constant velocity v along the straight line PQ as shown in the figure. Its angular momentum with respect to origin O is( theta is angle between vec v and x-axis)

Consider a uniform magnetic field B perpendicular to the plane. The conducting rod moves towards right with a constant velocity v as shown in the figure. When the rod is at a distance x=R/2 from the centre the current through the capacitor takes the value (2BCv^(2))/(sqrt(nR)) . Find 'n'

A rod of length 'l' is placed along x-axis. One of its ends is at the origin. The rod has a non-uniform charge density lambda= a, a being a positive constant. Electric potential at P as shown in the figure is -

A uniform rod of length 4l and mass m is free to rotate about a horizontal axis passing through a point distant l from its one end. When the rod is horizontal its angular velocity is omega as shown in figure. calculate (a). reaction of axis at this instant, (b). Acceleration of centre of mass of the rod at this instant. (c). reaction of axis and acceleration of centre mass of the rod when rod becomes vertical for the first time. (d). minimum value of omega , so that centre of rod can complete circular motion.

Four rods of equal mass m and length L . Forms a square ABCD as shown in figure. The moment of inertia of ABCD about the axis OO' passing through the point A is

Three identical rods A , B and C each having length l are in shape of letter H as shown in the figure and free to move in vertical plane. Find he velocity of A at the lowest position when the system is disturbed slightly

Two straight conducting rails form a right angle where their ends are joined. A conducting bar in contact with the rails starts at the vertex at time t = 0 and moves with constant velocity v along them as shown in Fig. A magnetic field vec(B) is directed into the page. the induced emf in the circuit at any time t is proportional to

Two straight conducting rails form a right angle where their ends are joined. A conducting bar in contact with the rails starts at the vertex at time t = 0 and moves with constant velocity v along them as shown in Fig. A magnetic field vec(B) is directed into the page. the induced emf in the circuit at any time t is proportional to

Four identical rods each of mass m and length l are joined to form a rigid square frame. The frame lies in the xy plane, with its centre at the origin and the sides parallel to the x and y axes. Its moment of inertia about