Combustion of sucrose is used by aerobic organisms for providing energy for the life sustaining processes. If all the capturing of energy form the reaction is done through electrical process (non P-V work) then calculate maximum available energy which can be captured by combustion of 34.2 gm of sucrose

Given : $\Delta {\text{H}}_{\text{combustion}}\left(\text{sucrose}\right)=-{\text{6000 kJ mol}}^{-1}$

$\Delta {\text{S}}_{\text{combustion}}=\text{180 J/K-mol}$ and body temperature is $300 \mathrm{K}$

For a Carnot engine which of the following is false?

A number of carnot engines are operated at identical cold reservoir temperatures $\left(T_L\right)$. However, their hot reservoir temperatures are kept different. A graph of the efficiency of the engines versus hot reservoir temperature $\left(T_H\right)$ is plotted. The correct graphical representation is

Graphs below show the entropy versus energy $U$ of two systems $1$ and $2$ at constant volume. The initial energies of the systems are indicated by $U_{1, i}$ and $U_{2, i} ,$ respectively. Graphs are drawn to the same scale. The systems are then brought into thermal contact with each other. Assume that, at all times the combined energy of the two systems remains constant. Choose the most appropriate option indicating the energies of the two systems and the total entropy after they achieve the equilibrium.