Two identical rods are arranged in two different ways as shown in the figure If `R_(1)` is rate at which ice is melting in figure 1 and `R_(2)` is the rate at which ice is melting in figure 2 then `(R_(2))/(R_(1))` is equal to

In the figure shown the current flowing 2 R is:

In the figure shown the current flowing 2 R is:

The power dissipated in the resistance R, in the circuit as shown in the figure, is maximum if R is equal to

A convex lens of glass (mu=1.5) is formed by combining two surfaces of radii R_(1)=60 cm and R_(2)=30cm . It is cut into two parts in two different ways as shown in Figure . Find: a. the focal length of the lens. b. in figure (a), the focal length of left portion and that of the right portion. c. in figure (b), the focal length of the upper part and that of the lower part.

In the figure shown sin i/sin r is equal to

In the circuit shown in figure , R_(1)=R_(2)=R_(3)=R. Match the following

In the circuits shown in the figures, the galvanometers show no deflection. Find the ratio of R_(1) and R_(2) .

Six resistance each of value r=5 Omega are connected between points A, B and C as shown in figure. If R_(1), R_(2) and R_(3) are the net resistance between A and B, between B and C and between A and C respectively, then R_(1):R_(2):R_(3) will be equal to

Passage : In the circuit shown in figure : Current through R_(1) is independent of :

In the circuit shown in the figure, the value of maximum rate of heat production in resistance R is