Temperature difference of `120^(@)C` is maintained between two ends of a uniform rod AB of length 2L. Another bent rod PQ, of same cross-section as AB and length`(3L)/(2)`, is connected across AB (See figure). In steady state, temperature difference between P and Q will be close to :

A rod is heated at one end as shown in figure. In steady state temperature of different sections becomes constant but not same. Why so? .

If a street light of mass M is suspended from the end of a uniform rod of length L in different possible patterns as shown in figure, then:

Charge Q is uniformly distributed on a dielectric rod AB of length 2l . The potential at P shown in the figure is equal to

A metal rod of length 2 m has cross sectional areas 2 A and A as shown in figure. The ends are maintained at temperatures 100° C and 70° C . The temperature at middle point C is

Heat is flowing through two cylindrical rods of the same material. The diamters of the rods are in the ratio 1: 2 and the length in the ratio 2 : 1 . If the temperature difference between the ends is same then ratio of the rate of flow of heat through them will be

Two rods A and B of same length and cross-sectional area are connected in series and a temperature difference of 100^@C is maintained across the combination as shoen in Fig. If the thermal conductivity of the rod A is 3 k and that of rod B is k, Then i.Determine the thermal resistance of each rod. ii. determine the heat current flowing through each rod. iii. determine the heat current flowing through each rod. iv. plot the variation of temperature along the length of the rod.

Four rods with different radii r and length l are used to connect two reservoirs of heat at different temperatures. Which one will conduct most heat ?

A cylindrical rod of length l and cross - sectional radius r is placed at a distance of 50 r from a infrared point source S of power 1.25 kw as shown in the figure. The lateral surface of the rod is perfectly insulated from the surroundings . If the cross - section A absorbs 80 % of the incident energy and the temperature difference between the ends of the rod is constant , then the rate of heat flow through the rod in steady state is

Two identical rods of length (L) , area of cross-sectional (A) and thermal conductivity k are joined end to end. If temperature difference of free ends is DeltaT , the heat Q_(0) flows along rods per second. Find the total heat flowing per second along the rods if the two rods are placed parallel and temperature difference of free ends is DeltaT . There is no heat loss from curved surface.

The two ends of a rod of length L and a uniform cross-sectional area A are kept at two temperature T_(1) and T_(2) (T_(1) gt T_(2)) . The rate of heat transfer. (dQ)/(dt) , through the rod in a steady state is given by