Two ends of a rod of non uniform area of cross section are maintained at temperature `T_(1)`and `T_(2)` `(T_(1)>T_(2))` as shown in the figure
If l is heat current through the cross-section of conductor at distance x from its left face, then the variation of l with x is best represented by

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

If charge through a cross-section of a conductor at timetis q= 2t^(2) +3t+1 . Find the current at t = 2s.

The V - i graph for a conductor at temperature T_(1) and T_(2) are as shown in the figure. ( T_(2) - T_(1)) is proportional to

The V-l graph for a conductor at temperatures T_(1) " and " T_(2) are as shown in the figure. The term T_(2) -T_(1) is proportional to

The V - I graphs for a conductor at temperature T_1 and T_2 are shown in the figure (T_2-T_1) is proportional to

Two ends of a rod of uniform cross sectional area are kept at temperature 3T_(0) and T_(0) as shown. Thermal conductivity of rod varies as k=alphaT , (where alpha is a constant and T is absolute temperature). In steady state, the temperature of the middle section of the rod is

The ends of a metal bar of constant cross-sectional area are maintained at temperatures T_1 and T_2 which are both higher than the temperature of the surroundings. If the bar is unlagged, which one of the following sketches best represents the variation of temperature with distance along the bar ?

Curved surface of a uniform rod is isolated from surrounding. Ends of the rod are maintained at temperatures T_(1) and T_(2)(T_(1)>T_(2)) for a long time. At an instant, temperature T_(1) starts to decrease at a constant and slow rate. If thermal capacity of material of the rod is considered, then which of thefollowing statements is/are correct ?

Two rods A and B of same cross sectional are A and length l connected in series between a source (T_(1) =100^(@)C) and a sink (T_(2) =0^(@)C) as shown in The rod is laterally insulated The ratio of thermal resistance of the rod is .

Three rods of the same length and the same area of the cross-section are joined. The temperature of two ends one T_(1) and T_(2) as shown in the figure. As we move along the rod the variation of temperature are as shown in the following [Rods are insulated from the surrounding except at the faces]