Figure shows PQ, QR, RS and SP, the walls of room PQRS, each measuring 8 m. The wall PQ has a full length plane mirror. A camera is placed at M the mid point of wall SR. In order to take clear image of the point R, S the camera should be focused at

Figure shows a cubical room ABCD with the wall CD as a plane mirror. Each side of the room is 3 m . We place a camera at the midpoint of the wall AB . At what distance should the camera be focussed to photograph an object placed at A.

Figure shows a rectangular loop conducting PQRS in which the arm PQ is free to move. A uniform magnetic field acts in the direction perpendicular to the plane of the loop. Arm PQ is moved with a valocity v towards the arm RS. Assuming that the arms QR, RS and SP have negligible resistances and the moving arm PQ has the resistance r, obtain the expression for (i) the current in the loop (ii) the force and (iii) the power required to move the arm PQ.

A square loop PQRS of side 'a' and resistance 'r' is placed near an infinitely long wire carrying a constant current I . The sides PQ and RS are parallel to the wire. The wire and the loop are in the same plane. The loop is rotated by 180^(@) about an axis parallel to the long wire and passing through the mid points of the side QR and PS . The total amont of charge which passes through any point of the loop during rotation is:

A thin equiconvex lens of glass of refractive index mu=3//2 & of focal length 0.3m in air is sealed into an opeing at one end of a tank filled with water (mu=4//3) .Ont he oppostie side of the lens ,a mirror is placed inside the tank on the tank wall perpendicualar tot he lens axis ,as shown in figure .the seperation bertween the lens and the mirror is 0.8m A small object is placed outside the tank in front of the lens at a distance of 0.9 m form the lens along its axis .Find the position (relative to the lens)of the image of the object fromed byt he stsyem.