2. A box contains N =100 identical gas molecules equally divided between its two halves. What are (a) the multiplicity of the central configuration? (b) the total number of microstates? (c) the percentage of time the system spends in the central configuration? (d) the trend of the percentage of time the system spends in the central configuration as N increases? 10 atm 3. One mole if ideal monatomic is taken through the reversible P-V cycle shown. Find (a) the energy added to the gas as heat (b) the energy leaving the gas as heat (c) the net work done by the gas adiabatic (d) the efficiency of the cycle 1.00 x 10-3 m 8.00 x 10-3 m

2. A box contains N =100 identical gas molecules equally divided between its two halves. What are (a) the multiplicity of the central configuration? (b) the total number of microstates? (c) the percentage of time the system spends in the central configuration? (d) the trend of the percentage of time the system spends in the central configuration as N increases? 10 atm 3. One mole if ideal monatomic is taken through the reversible P-V cycle shown. Find (a) the energy added to the gas as heat (b) the energy leaving the gas as heat (c) the net work done by the gas adiabatic (d) the efficiency of the cycle 1.00 x 10-3 m 8.00 x 10-3 m