A planar object made up of a uniform square plate and four semicircular discs of the same thickness and material is being acted upon by four forces of equal magnitude as shown in Fig. The coordinates of point of application of forces is given by

A sufficiently long plane of mass 4kg is placed on a smooth horizontal surfaces A small block of mass 2kg is placed over the plank and is being acted upon by a time varying horizontal force F = (0.5t) where F is in newton and t is in second as shown in figure. The coefficient of friction slipping the plank and the block is given is mu_(s) = mu_(k) = mu , at time t = 12s the relative slipping between the plank and the block is just likely to occur The coefficient of friction mu is equal to

Four forces of the same magnitude act on a square as shown in figure. The square can rotate about point O , mid point of one of the edges. The force which can produce greatest torque is

Forces of equal magnitude of 0.5 N are acting on a square plate of side sqrt(2) m and mass 1 kg as shown in figure. The net torque on the square plate about centre O will be

A uniform square plate and a disc having same mass per unit area are kept in contact as shown in Fig. The side of square and diameter of circle are both equal to L . Locate the position of centre of mass of the system w.r.t. the centre of the square.

A horizontal force of magnitude Facts at the end P of a uniform rigid rod which is welded at point Q . In each case 1 and 2 , as shown in Fig., find the reaction. force acting at a point C at a distance x from the fixed end Q of the rod.

A square frame ABCD is made of insulated wires and there is a short dipole, with dipole moment p, fixed in the plane of he figure. The dipole is lying at the centre of the square, making an angle theta , as shown in the figure. If four point charges are placed at the four point charges are placed at the four corners of the square, then the magnitude of force exerted by the dipole on the system of charges is

Given are four arrangements of three fixed electric charges. In each arrangement, a point labeled P is also identified. A test charge +q is placed at P. All of the charges are of the same magnitude Q, but they can be either positive or negative as indicated. The charged and point P all lie on a straight line. the distances between adjacent items, either between two charges or between a charge and point P, are all the same. I. o+,o+,o+,underset (P)(*) , II. o+,o+,overset(P)(*),- III. o+,o+,-, overset(P)(*) , IV. o+, - , o+, overset(P)(*) . Correct order of choices in a decreasing order of magnitude of force on P is

A uniform disc of mass m and radius R is rolling up a rough inclined plane which makes an angle of 30^@ with the horizontal. If the coefficients of static and kinetic friction are each equal to mu and the only force acting are gravitational and frictional, then the magnitude of the frictional force acting on the disc is and its direction is .(write up or down) the inclined plane.

The forces each of magnitude 10N act vertically upwards and downwards respectively at the two ends A and B of a uniform rod of length 4m which is pivoted at its mid point O as shown is fig. 1.30, Determine the magnitude of the resultant moment of forces about the pivot O.