As illustrated in the sketch below, a composite wall separates combustion gases at 2400C from a liquid coolant at 100C with gas and liquid-side convection coefficients of 25 and 1000W/m2K. The wall is composed of a 12mm-thick layer of beryllium oxide on the gas side and a 24-mm-thick slab of stainless steel (AISI 304) on the liquid side. The contact resistance between the oxide and the steel is 0.04m2K/W. What is the rate of heat loss per unit surface area of the composite, in W/m2 ? q=W/m2 Determine the temperature of the beryllium oxide layer on the gas side, Ts,1, the temperature of the stainless steel on the liquid side, Ts,2, and the contact surface temperatures of the beryllium oxide, Tc,1, and the stainless steel, Tc22, all in C. \begin{tabular}{ll} Ts,1= & C \\ Ts,2= & C \\ Tc,1= & C \\ Tc,2= & C \end{tabular}