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Thermodynamic Systems01:06

Thermodynamic Systems

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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...
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The Carnot Cycle01:30

The Carnot Cycle

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Converting work to heat is an irreversible process, and the purpose of a heat engine is to reverse the effect partially. Heat engines aim to increase the efficiency of the reversal, that is, maximize the work retrieved from heat. If the efficiency of a heat engine were 100%, it would imply reversing the process completely without introducing any other effect. Thus, it would violate the second law of thermodynamics.
What could be the theoretical limit to the efficiency of a heat engine? The...
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Mechanical Systems01:22

Mechanical Systems

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Mechanical systems are analogous to to electrical networks where springs and masses play similar roles to inductors and capacitors, respectively. A viscous damper in mechanical systems functions similarly to a resistor in electrical networks, dissipating energy. The forces acting on a mass in such systems include an applied force in the direction of motion, counteracted by forces from the spring, a viscous damper, and the mass's acceleration. This interplay of forces is mathematically...
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Path Between Thermodynamics States01:21

Path Between Thermodynamics States

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Consider the two thermodynamic processes involving an ideal gas that are represented by paths AC and ABC in Figure 1:
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The Carnot Cycle and the Second Law of Thermodynamics01:20

The Carnot Cycle and the Second Law of Thermodynamics

2.9K
The Carnot engine works between two heat reservoirs of fixed temperatures. The Carnot cycle begs the following question: Is it possible to devise a heat engine that is more efficient than a Carnot engine between two fixed temperatures? The answer lies in designing a Carnot refrigerator.
Since the individual steps in a Carnot cycle can be reversed, the entire cycle is, thus, reversible. If a Carnot cycle is reversed, it becomes a Carnot refrigerator. It extracts heat Qc from a cold reservoir at...
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Zeroth Law of Thermodynamics01:14

Zeroth Law of Thermodynamics

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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.
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Related Experiment Video

Updated: Oct 2, 2025

Uncoupling Coriolis Force and Rotating Buoyancy Effects on Full-Field Heat Transfer Properties of a Rotating Channel
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Uncoupling Coriolis Force and Rotating Buoyancy Effects on Full-Field Heat Transfer Properties of a Rotating Channel

Published on: October 5, 2018

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Rotating Minimal Thermodynamic Systems.

Edward Bormashenko1

  • 1Chemical Engineering Department, Engineering Sciences Faculty, Ariel University, Ariel 407000, Israel.

Entropy (Basel, Switzerland)
|February 25, 2022
PubMed
Summary
This summary is machine-generated.

This study explores minimal rotating thermodynamic systems for information processing. Recording one bit of information is possible but irreversible, while erasing information is achieved through thermal noise and system rotation.

Keywords:
Landauer bounddouble-well potentialfrictioninertia forceminimal thermal enginerotating systemssymmetry

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Last Updated: Oct 2, 2025

Uncoupling Coriolis Force and Rotating Buoyancy Effects on Full-Field Heat Transfer Properties of a Rotating Channel
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Area of Science:

  • Thermodynamics
  • Information Theory
  • Statistical Mechanics

Background:

  • Investigates minimal rotating systems for information processing.
  • Considers a particle in a rotating double-well potential as a binary logical system.

Purpose of the Study:

  • Derive conditions for recording one bit of information in a rotating system.
  • Analyze the irreversibility of information recording.
  • Examine a minimal rotating thermal engine for information erasure.

Main Methods:

  • Theoretical analysis of a particle in a rotating double-well potential.
  • Modeling a minimal rotating thermal engine with a movable partition.
  • Consideration of thermal noise and centrifugal forces.

Main Results:

  • Identified conditions for irreversible one-bit information recording.
  • Demonstrated information erasure via system rotation and inertia.
  • Confirmed Landauer bound for isothermal expansion; highlighted compression impossibility without additional rotation axis.

Conclusions:

  • Information recording and erasure are fundamentally linked to system symmetry and rotation.
  • Minimal rotating systems offer insights into the thermodynamics of information processing.