In the given arrangement, the rod is free to rotate about the hinge and it is in constant contact with the equilateral triangular block of base length `(2a)/(sqrt3)`. If the block is moving horizontally with a speed `upsilon = 20 ms^(-1)`, then find the magnitude of the angular velocity of the rod (in rad. `s^(-1)`)at the instant when `theta = 30^(@)`. [Given that `a = 1m]`

A block of mass 1kg is tied to a string of length 1m the other end of which is fixed The block is moved on a smooth horizontal table with constant speed 10ms^(-1) . Find the tension in the string

A rod length AB is moving with ends remaining in contact with frictionless wall and floor . If at the instant shown , the velocity of the and B is 3 m s^(-1) towards the negative x-direction , then the magnitude of the velocity of the end A wll be

In the given figure , if the velocity of the block C at a particular instant is -20 m s^(-1)hatJ , then the velocity of the rod (A) that instant will be : (string is attached to wedge )

In the arrangement shown in figure if speed of point 1 and point 2 are u, then what is the velocity of block at given instant of time.

A block X of mass 0.5 kg is held by a long massless string on a frictionless inclined plane of inclination 30^@ to the horizontal. The string is wound on a uniform solid cylindrical drum Y of mass 2kg and of radius 0.2m as shown in Fingure. The drum is given an initial angular velocity such that the block X starts moving up the plane. (i) Find the tension in the string during the motion. (ii) At a certain instant of time the magnitude of the angular velocity of Y s 10 rad s^(-1) calculate the distance travelled by X from that instant of time until it comes to rest

A uniform rod AB of mass m and length L rotates about a fixed vertical axis making a constant angle theta with it as shown in figure. The rod is rotated about this axis, so that point B the free end of the rod moves with a uniform speed V in the horizontal plane then the angular momentum of the rod about the axis is:

A uniform rod AB of mass m and length L rotates about a fixed vertical axis making a constant angle theta with it as shown in figure. The rod is rotated about this axis, so that point B the free end of the rod moves with a uniform speed V in the horizontal plane then the angular momentum of the rod about the axis is:

A rod of length 1m is sliding in a corner as shown. At an instant when the rod makes an angle of 60^(@) with the horizontal plane, the velocity of point A on the rod is 1 m/s. The angular velocity of the rod at this instant is :

A rod can freely rotate in vertical plane about the hinge at its bottom. Two strings tie the top of the rod with blocks A and B as shown in the figure. At the instant shown,, the rod is vertical and the speed of block A is u (m)/(s) downwards. Find the speed of block B.

A block hangs from a string wrapped on a disc of radius 20 cm free to rotate about its axis which is fixed in a horizontal position. If the angular speed of the disc is 10 rad/s at some instant, with what speed is the block going down at that instant?