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Internal Energy
Internal energy is defined as the energy associated with the random, disordered motion of molecules. It is separated in scale from the macroscopic ordered energy associated with moving objects; it refers to the invisible microscopic energy on the atomic and molecular scale. For example, a room temperature glass of water sitting on a table has no apparent energy, either potential or kinetic . But on the microscopic scale it is a seething mass of high speed molecules traveling at hundreds of meters per second. If the water were tossed across the room, this microscopic energy would not necessarily be changed when we superimpose an ordered large scale motion on the water as a whole.
U is the most common symbol used for internal energy.
Related energy quantities which are particularly useful in chemical thermodynamics are enthalpy, Helmholtz free energy, and Gibbs free energy.
Microscopic Energy
Internal energy involves energy on the microscopic scale. For an ideal monoatomic gas, this is just the translational kinetic energy of the linear motion of the "hard sphere" type atoms , and the behavior of the system is well described by kinetic theory. However, for polyatomic gases there is rotational and vibrational kinetic energy as well. Then in liquids and solids there is potential energy associated with the intermolecular attractive forces. A simplified visualization of the contributions to internal energy can be helpful in understanding phase transitions and other phenomena which involve internal energy.
Internal Energy Example
When the sample of water and copper are both heated by 1°C, the addition to the kinetic energy is the same, since that is what temperature measures. But to achieve this increase for water, a much larger proportional energy must be added to the potential energy portion of the internal energy. So the total energy required to increase the temperature of the water is much larger, i.e., its specific heat is much larger.
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FAQs on Internal Energy - Thermodynamic and Statistical Physics, CSIR-NET Physical Sciences - Physics for IIT JAM, UGC - NET, CSIR NET
| 1. What is the definition of internal energy in thermodynamics? |  |
| 2. How is the internal energy of a system related to its temperature? | |
Ans. The internal energy of a system is directly related to its temperature. In thermodynamics, the average kinetic energy of the particles in a system is directly proportional to its temperature. Therefore, as the temperature of a system increases, its internal energy also increases.
| 3. Can the internal energy of a system change without the addition or removal of heat? | |
Ans. Yes, the internal energy of a system can change without the addition or removal of heat. This can occur through work done on or by the system. Work is a form of energy transfer that can change the internal energy of a system without changing its temperature.
| 4. What is the relationship between internal energy, heat, and work? | |
Ans. The change in internal energy of a system is equal to the heat added to the system minus the work done by the system. Mathematically, it can be expressed as ΔU = Q - W, where ΔU is the change in internal energy, Q is the heat added to the system, and W is the work done by the system.
| 5. How is the internal energy of a gas related to its microscopic properties? | |
Ans. The internal energy of a gas is related to its microscopic properties through the kinetic energy of its particles. In an ideal gas, the internal energy is solely determined by the average kinetic energy of its particles. The temperature of the gas is directly related to the average kinetic energy, thus determining the internal energy of the gas.
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