Three bars of equal lengths x and equal area of cross-section A are connected in series. Their thermal conductivities are in the ratio 2:4:3. If the open ends of the first and the last bars are at temperatures `200^@C` and `18^@C`, respectively in the steady state, calculate the temperatures of both the junctions.

Three bars of equal lenghts and equal area of cross-section are connected in series. Their thermal conductivities are in the ratio of 2:4:3 . If the open ends of the first and the last bars are at temperature 200^(@)C and 180^(@)C respectivity in the steady state, calculate the temperature of both the junctions.

Three bars of equal lengths and equal area of cross-section are connected in series fig. their thermal conducitives are in the ratio 2:3:4 . If at the steady state the open ends of the first and the last bars are at temperature 200^(@)C and 20^(@)C respectively, find the temperature of both the junctions. .

Three cylindrical rods A, B and C of equal lengths and equal diameters are joined in series as shown if Fig. Their thermal conductivities are 2K, K and 0.5K, respectively. In steady state, if the free ends of rods A and C are at 100^@C and 0^@C , respectively, calculate the temperature at the two junction points. Assume negligible loss by radiaiotn through the curved surface. What will be the equivalent thermal conductivity?

Three rods of equal length and equal area of cross section are connected end to end in series. The open end of the first rod (from left) is at a temperature of 300^@C and that of the last rod is at 20^@C in steady state. If the thermal conductivities of rods from left to right are in the ratio of 1: 3: 4, then find the temperatures of both the junctions.

Two ends of a conducting rod of varying cross-section are maintained at 200^(@)C and 0^(@)C respectively. In steady state:

Three rods each of same length and cross - section are joined in series. The thermal conductivity of the materials are K, 2K and 3K respectively. If one end is kept at 200^@C and the other at 100^@C . What would be the temperature of the junctions in the steady state? Assume that no heat is lost due to radiation from the sides of the rods.

Two bars of same length and same cross-sectional area but of different thermal conductivites K_(1) and K_(2) are joined end to end as shown in the figure. One end of the compound bar it is at temperature T_(1) and the opposite end at temperature T_(2) (where T_(1) gt T_(2) ). The temperature of the junction is