Fig. shows a conducting loop being pulled out of a magnetic field with a constant speed `v`.Which of the four plots shown in fig. may represent the power delivered by the putting agent as a function of the constant speed `v`.

Which of the plots shown in the figure represents speed (v_n) of the electron in a hydrogen atom as a function of the principal quantum number (n)?

In the figure shown, the plank is being pulled to the right with a constant speed v . If the cylinder does not slip then: .

A conducting loop is being pulled with speed v from region I of magnetic field to region II. If resistance of the loop is R, current induced in the loop at the instant shown is

A conducting loop is pulled with a constant velocity towards a region of uniform magnetic field as shown in the figure then the current involved in the loop is ( d gt r ) -

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 horizontal loop abcd is moved across the pole pieces of a magnet as shown in fig. with a constant speed v . When the edge ab of the loop enters the pole pieces at time t=0 sec. which one of the following graphs represents correctly the induced e.m.f. in the coil?

A conducting rod, with a resistor of resistance R. is pulled with constant speed v on a smooth conducting rail as shown in figure. A constant magnetic field vecB is directed into the page. If the speed of the bar is doubled, by what factor does the rate of heat dissipation across the resistance R change?