Nine identical conducting rods are arranged as shown in the figure. The ends A and B are maintained at temperatues `T_(1)` and `T_(2)`. Calculate the ratio of rate of flow of heat across AD to that of EB in the given arrangement in steady state.

Six identical uniform conducting rods are fixed to make a regular hexagon as shown. The ends A and C are maintained at constant temperature 2T_(0) and 6 T_(0) . After the steady state is reached. Pick up the correct relation between temperatures T_(B),T_(B),T_(E) and T_(F) of ends B,D,E and F respectively.

Four thin identical rods AB, AC, BD and EF made of the same material are joined as shown. The free-ends C,D and F are maintained at temperature T_(1),T_(2) and T_(3) respectively. Assuming that there is no loss of heat of the surroundings, the temperature at joint E when the steady state is attained is (1)/(K) (2T_(1)+2T_(2)+3T_(3)) . Find K (E is mid point of AB)

Three rods of identical cross-sectional area and made from the same metal form the sides of an isosceles triangle ABC right angled at B as shown in the figure. The points A and B are maintained at temperature T and (sqrt2)T respectively in the steady state. Assuming that only heat conduction takes place, temperature of point C will be

Three conducting rods of same material and cross-section are shown in figure. Temperatures of A,D and C are maintained at 20^(@)C, 90^(@)C and 0^(@)C . The ratio of lengths BD and BC if there is no heat flow in AB is

Two rods (one semi-circular and other straight) of same material and of same cross-sectional area are joined as shown in the figure. The point A and B are maintained at different temperature. Find the ratio of the heat transferred through a cross-section of a semi-circular rod to the heat transferred through a cross section of the straight rod in a given time.

Four identical rods AB, CD, CF and DE are joined as shown in figure. The length, cross-sectional area and thermal conductivity of each rod are l, A and K respectively. The ends A, E and F are maintained at temperature T_(1) , T_(2) and T_(3) respectively. Assuming no loss of heat to the atmosphere, find the temperature at B.

Four identical rods AB, CD, CF and DE are joined as shown in figure. The length, cross-sectional area and thermal conductivity of each rod are l, A and K respectively. The ends A, E and F are maintained at temperature T_(1) , T_(2) and T_(3) respectively. Assuming no loss of heat to the atmosphere, find the temperature at B .

Six identical conducting rods are connected as shown in figure. In steady state temperature of point phi_(1) is fixed at 100^(@)C and temperature of phi_(6) at -80^(@)C Q. What is the temperature of phi_(2) ?

Six identical conducting rods are connected as shown in figure. In steady state temperature of point phi_(1) is fixed at 100^(@)C and temperature of phi_(6) at -80^(@)C Q. What is the temperature of phi_(5) ?

Six identical conducting rods are connected as shown in figure. In steady state temperature of point phi_(1) is fixed at 100^(@)C and temperature of phi_(6) at -80^(@)C Q. What is the temperature of phi_(3) ?