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相关概念视频

Thermodynamic Systems01:06

Thermodynamic Systems

5.0K
A thermodynamic system is a set of objects whose thermodynamic properties are of interest. The system is considered to be embedded in its surroundings or the environment. The system and its environment can exchange heat and do work on each other through a boundary that separates them. However, the immediate surroundings of the system interact with it directly and therefore have a much stronger influence on its behavior and properties.
Consider an example of  tea boiling in a kettle. The...
5.0K
Maxwell's Thermodynamic Relations01:23

Maxwell's Thermodynamic Relations

2.7K
Maxwell's thermodynamic relations are very useful in solving problems in thermodynamics. Each of Maxwell's relations relates a partial differential between quantities that can be hard to measure experimentally to a partial differential between quantities that can be easily measured. These relations are a set of equations derivable from the symmetry of the second derivatives and the thermodynamic potentials.
All thermodynamic potentials are exact differentials. Therefore, their second-order...
2.7K
Path Between Thermodynamics States01:21

Path Between Thermodynamics States

3.1K
Consider the two thermodynamic processes involving an ideal gas that are represented by paths AC and ABC in Figure 1:
3.1K
Thermodynamic Potentials01:26

Thermodynamic Potentials

816
Thermodynamic potentials are state functions that are extremely useful in analyzing a thermodynamic system. They have dimensions of energy. The four important thermodynamic potentials are internal energy, enthalpy, Helmholtz free energy, and Gibbs free energy. These thermodynamic potentials can be expressed using two of the following variables: pressure, volume, temperature, and entropy. These two variables are expressed as the rate of change of the thermodynamic potential with respect to other...
816
Statements of the Second Law of Thermodynamics01:15

Statements of the Second Law of Thermodynamics

2.6K
The second law of thermodynamics can be stated in several different ways, and all of them can be shown to imply the others. The Clausius’ statement of the second law of thermodynamics is based on the irreversibility of spontaneous heat flow. It states that heat will not flow from the colder body to the hotter body unless some other process is involved. Additionally, as per the Kelvin’s statement, it is impossible to convert the heat from a single source into work without any other...
2.6K
Zeroth Law of Thermodynamics01:14

Zeroth Law of Thermodynamics

5.0K
Experimentally, if object A is in equilibrium with object B, and object B is in equilibrium with object C, then object A is in equilibrium with object C. That statement of transitivity is called the "zeroth law of thermodynamics." For example, a cold metal block and a hot metal block are both placed on a metal plate at room temperature. Eventually, the cold block and the plate will be in thermal equilibrium. In addition, the hot block and the plate will be in thermal equilibrium.
5.0K

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An Analog Macroscopic Technique for Studying Molecular Hydrodynamic Processes in Dense Gases and Liquids
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半古典的热力学几何学是半古典的.

L F Escamilla-Herrera1, J L López-Picón1, José Torres-Arenas1

  • 1División de Ciencias e Ingenierías Campus León, Universidad de Guanajuato, AP E-143, CP 37150, León, Guanajuato, México.

Physical review. E
|July 18, 2024
PubMed
概括

这项研究分析了半古典流体中的热力学几何 (TG). 硬球模型中的量子效应避免了在经典系统中看到的异常,正方形井模型显示了具有变化的量子贡献的独特曲率行为.

科学领域:

  • 热力学是一种热力学.
  • 统计力学 统计力学
  • 量子流体 量子流体

背景情况:

  • 热力学几何学 (TG) 为流体行为提供了洞察力.
  • 经典的硬球流体在TG中表现出与标尺曲率标志相关的异常.
  • 了解半古典流体行为需要结合量子效应.

研究的目的:

  • 分析半古典流体的热力学几何.
  • 调查量子贡献如何影响TG异常.
  • 探索半古典方形井流体的行为及其曲率特性.

主要方法:

  • 路径积分蒙特卡洛模拟以确定半经典硬球 (SCHS) 流体的赫尔姆霍尔茨自由能量.
  • 分析半古典流体中的标尺曲率.
  • 在不同的热力学条件下比较半古典和古典流体行为.

主要成果:

  • 在SCHS流体中的量子贡献避免了在显著的热力学范围内的经典硬球系统中观察到的TG异常.
  • 分析了半古典曲率标量体的行为,涉及方形井流体的热德布罗利波长.
  • 描述了半古典R Widom线,并与古典系统进行了比较.

结论:

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  • 量子效应显著改变了流体的热力学几何形状,减轻了经典的异常.
  • 半古典模型为流体行为提供了更丰富的理解,特别是在具有吸引力相互作用的系统中.
  • 该研究为使用热力学几何学分析量子流体特性提供了一个框架.