An aircraft loops the loop of radius R = 500 m with a constant velocity ` v = 360km//h`. The weight of the flyer of mass m = 70 kg in the lower, upper and middle points of the loop will respectively be-

An aicraft loops the loop of radius R=3000m with a constant speed v=200m//s . Find the weight of the flyer of mass m=60kg in the lower, upper and middle points of the loop.

A 500 kg crave takes a turne of radius 50 m wiyh velocity of 54 km//h.The centripetal force is

A bar magnet is passing through a conducting loop of radius R with velocity v. The radius of the bar magnet is such that it just passes through the loop. The induced e.m.f. in the loop can be represented by the approximate curve :

A triangle loop as shown in the figure is started to being pulled out at t=0 from a uniform magnetic field with a constant velocity v .Total resistance of the loop is constant and equals to R .Then the variation of power produced in the loop with time will be:

A charge q is spread uniformly over an insulated loop of radius r. If it is rotated with an angular velocity omega with respect to normal axis then the magnetic moment of the loop is

A conducting circular loop of radius a and resistance per unit length R is moving with a constant velocity v_0 , parallel to an infinite conducting wire carrying current i_0 . A conducting rod of length 2a is approaching the centre of the loop with a constant velocity v_0/2 along the direction 2 of the current. At the instant t = 0 , the rod comes in contact with the loop at A and starts sliding on the loop with the constant velocity. Neglecting the resistance of the rod and the self-inductance of the circuit, find the following when the rod slides on the loop. (a) The current through the rod when it is at a distance of (a/2) from the point A of the loop. (b) Force required to maintain the velocity of the rod at that instant.

What is the apparent weight of a boby of mass m at (a) the highest and (b) lowest point if it is just looping the loop in a vertical circle ?