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Micro & Macro Descriptions of Internal Energy P M V Subbarao Professor Mechanical Engineering Department Important Form of Energy for Engineering Systems.

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Presentation on theme: "Micro & Macro Descriptions of Internal Energy P M V Subbarao Professor Mechanical Engineering Department Important Form of Energy for Engineering Systems."— Presentation transcript:

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2 Micro & Macro Descriptions of Internal Energy P M V Subbarao Professor Mechanical Engineering Department Important Form of Energy for Engineering Systems …..

3 The Greatest Thermodynamic Relation Internal Energy and Temperature UAUA Substance A Substance B UBUB If two substances are at same temperature, their microscopic translational kinetic energy must be same

4 What is Temperature Really?

5 Absolute Kelvin Temperature is proportional to average kinetic energy of atoms in a macroscopic system. When atoms collide they tend on the average, to equalize kinetic energy spreads equally over all atoms. This is called thermal equilibrium.

6 Measurement of Energy Macroscopic Energy: Easy to measure. Microscopic Energy: Needs a detailed experiment. Identify methods to measure economically.

7 Measurement of Change in Internal Energy First law for A control mass: 1 Q 2 = U 2 – U 1 Consider a homogeneous phase of a substance with constant composition. Define Specific Heat: The amount of heat required per unit mass/mole to raise the temperature by one degree. No change in other forms of energy, except internal energy. Constant Volume Heating

8 Constant Volume Specific Heat The molar specific heat at constant volume is defined by Based on microscopic theory, for a monatomic ideal gas, Based on microscopic theory, for a polyatomic ideal gas,

9 CV Specific Heats of Ideal Gases Experimental results

10 Gas Constant Volume Heat Capacity C V ( J/mol K )C V /R Ar12.51.50 He12.51.50 CO20.72.49 H220.42.45 HCl21.42.57 N2N2 20.62.49 NO20.92.51 O2O2 21.12.54 Cl 2 24.82.98 CO 2 28.23.40 CS 2 40.94.92 H2SH2S25.43.06 N2ON2O28.53.42 SO 2 31.33.76

11 What about any other process?

12 General Process by A Control Mass General (Polytropic) process of a control mass:

13 Measurement of Changes during Constant Pressure Process Constant pressure heating of a control mass: Constant Pressure Heating

14 Constant Pressure Specific Heat The molar specific heat at constant pressure is defined by Using the first law of thermodynamics for a constant pressure process this can be put in the form From a mono atomic ideal gas ( pV=nRT) under constant pressure conditions it can be seen that

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