A cylinder of volume V 10 2 m made by non conducting walls contains 8 gm of He gas The cylinder is divided by a thin fixed

Question

A cylinder of volume V 10 2 m made by non conducting walls contains 8 gm of He gas The cylinder is divided by a thin fixed membrane into two unequal parts Volume of the left compartment is V 3 and the right component has volume 2V 3 The left compartment has an installed electric heater Due to finite conductivity of the membrane heat passes from the left part into the right part Heat transfer rate through the membrane is 0 2 watt per AT 1 C temperature difference across the membrane Initially the heater is off and both the parts are in thermal and mechanical equilibrium The membrane can withstand maximum pressure difference of 103 Pa The heater starts supplying heat slowly the left compartment at its maximum possible power such that the membrane remains intact after long time of heating also Take R 25 3 J mol K Column Column II A For the left compartment B For the right compartment C For the whole cylinder D Through the membrane q s t 100001 Pressure of the system 1 Temperature of the system Rate of transfer of heat is 0 20 watt Rate of transfer of the heat is 0 06 watt Rate of transfer of heat is 0 12 watt Rate of change of internal energy is constant

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