2. This macroscopic approach to the study of thermodynamics that does not require knowledge of the behaviour of individual particles.

3. Macroscopic thermodynamics is only concerned with the effects of the action of many molecules, and these effects can be perceived by human senses.

4. The macroscopic observations are completely independent of the assumptions regarding the nature of matter.

6. This microscopic approach to the study of thermodynamics that require knowledge of the behaviour of individual particles.

7. Microscopic thermodynamics is concerned with the effects of the action of many molecules, and these effects cannot be perceived by human senses.

8. The microscopic observations are completely dependent on the assumptions regarding the nature of matter.

11. An isothermal process, for example, is a process during which the temperature T remains constant.

12. An isobaric process is a process during which the pressure P remains constant.

13. An isochoric (or isometric) process is a process during which the specific volume v remains constant.

14. Adiabatic process:

15. A process during which there is no heat transfer is called an adiabatic process .

16. The word adiabatic comes from the Greek word adiabatos, which means not to be passed.

17. For a adiabatic process, the system is well insulated so that no or only a negligible amount of heat can pass through the boundary.

18. A wall which is impermeable to the flow of heat is an adiabatic wall.

19. A wall which permits the flow of heat is a diathermic wall.

21. Heat Transfer

23. Work done depends on the mass, therefore work is extensive property.

24. Formal sign convention for work:

25. Work done by a system or work done due to expansion is positive;

26. Work done on a system or work done on due to compression is negative.

29. Convection- Interaction between solid surface and adjacent fluid system or between two fluid systems.

30. Conduction - Heat transfer when Two bodies are in direct contact.

31. Radiation – Due to the emission of electromagnetic waves.

32. Since the magnitude of heat depends on the path followed during the process, therefore heat is a path function.

33. Heat depends on the mass, therefore heat is extensive property.

34. Formal sign convention for Heat Transfer

35. Heat transfer to a system is positive;

39. Therefore, Work done = W = 0

40. Isothermal Process

41. Isothermal ProcessP1P2V2V1PVPV=CW1-2

43. Therefore, PV=Constant=C=P1V1=P2V2

44. ->P=CV

46. -> W= C ln(V2 / V1)

47. -> W = PV ln(V2 / V1) = P1V1 ln(V2 / V1) = P2V2 ln(V2 / V1)

48. =nRTln(V2V1) =nRTln(P1P2) =P1V1ln(P1P2) =P2V2ln(P1P2)

49. Polytropic or adiabatic process

50. Polytropic ProcessPV12P V n =Cn= 0n= 1n= 2n= ∞

52. ->P=CVδ=C× V-δ-> W= C.V-δ.dVv2v1-> W= C V-δ+1-δ+1v2v1-> W= C V2-δ+1 – V1-δ+1 - δ +1-> W = P2V2 – P1V11 - δ<br />Reversible Process<br />