Thermodynamics and Thermochemistry


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All Lectures

Lect # 1
Content Covered:

System ,surrounding,open system, closed system, isolated system, thermodynamic variable, process, open cycle ,closed cycle,intensive prop. Extensive prop., state function, path function, heat, work, heat capacity, molar heat capacity, specific heat capacity ,IUPAC , types of process, isothermal, isobaric, isochoric, adiabatic process,convention for heat and work

Duration: 41 Minutes

Lect # 2
Content Covered:

Reversible and irreversible process, reversible isothermal compression, single step isothermal compression, two stage isothermal compression

Duration: 56 Minutes

Lect # 3
Content Covered:

Reversible isothermal expansion, single stage isothermal expansion, two stage isothermal expansion, internal energy, degree of freedom, first law of thermodynamics

Duration: 50 Minutes

Lect # 4
Content Covered:

Enthalpy change , phase transformation

Duration: 46 Minutes

Lect # 5
Content Covered:

Free expansion, reversible adiabatic process, work calculation for reversible Adiabatic and irreversible Adiabatic processes

Duration: 43 Minutes

Lect # 6
Content Covered:

comparison between reversible adiabatic and irreversible adiabatic processes, comparison between reversible adiabatic and reversible isothermal processes

Duration: 42 Minutes

Lect # 7
Content Covered:

Spontaneous and nonspontaneous process, entropy, second law of thermodynamics , entropy change for system and surrounding

Duration: 55 Minutes

Lect # 8
Content Covered:

Numerical on entropy change , entropy change during free expansion

Duration: 40 Minutes

Lect # 9
Content Covered:

Gibbs energy change, heat pump, carnot cycle

Duration: 56 Minutes

Lect # 10
Content Covered:

Thermochemistry, enthalpy of formation, enthalpy of combustion

Duration: 48 Minutes

Lect # 11
Content Covered:

Enthalpy of fusion, vaporization,sublimation,bomb calorimeter, enthalpy of neutralisation, enthalpy of ionisation

Duration: 57 Minutes

Lect # 12
Content Covered:

Bond enthalpy, hess law, resonance energy. Lattice energy , hydration energy, enthalpy of formation of ion, kirchhoff equation, integral enthalpy of solution, calculation of lattice energy using born haber cycle

Duration: 1 hr 08 Minutes


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