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Thermodynamics , science of the relationship between heat , work , temperature , and energy. In broad terms, thermodynamics deals with the transfer of energy from one place to another and from one form to another.
The key concept is that heat is a form of energy corresponding to a definite amount of mechanical work. Thermodynamics is the study of the relations between heat, work, temperature, and energy. The laws of thermodynamics describe how the energy in a system changes and whether the system can perform useful work on its surroundings. Yes, thermodynamics is a branch of physics that studies how energy changes in a system. The key insight of thermodynamics is that heat is a form of energy that corresponds to mechanical work that is, exerting a force on an object over a distance.
Heat was not formally recognized as a form of energy until about , when Count Rumford Sir Benjamin Thompson , a British military engineer, noticed that limitless amounts of heat could be generated in the boring of cannon barrels and that the amount of heat generated is proportional to the work done in turning a blunt boring tool.
Another pioneer was the French military engineer Sadi Carnot , who introduced the concept of the heat-engine cycle and the principle of reversibility in Later that century, these ideas were developed by Rudolf Clausius , a German mathematician and physicist, into the first and second laws of thermodynamics, respectively.
Although thermodynamics developed rapidly during the 19th century in response to the need to optimize the performance of steam engines, the sweeping generality of the laws of thermodynamics makes them applicable to all physical and biological systems. In particular, the laws of thermodynamics give a complete description of all changes in the energy state of any system and its ability to perform useful work on its surroundings.
This article covers classical thermodynamics, which does not involve the consideration of individual atoms or molecules.
Such concerns are the focus of the branch of thermodynamics known as statistical thermodynamics, or statistical mechanics , which expresses macroscopic thermodynamic properties in terms of the behaviour of individual particles and their interactions. It has its roots in the latter part of the 19th century, when atomic and molecular theories of matter began to be generally accepted.
The application of thermodynamic principles begins by defining a system that is in some sense distinct from its surroundings. For example, the system could be a sample of gas inside a cylinder with a movable piston , an entire steam engine , a marathon runner, the planet Earth , a neutron star , a black hole , or even the entire universe. In general, systems are free to exchange heat , work , and other forms of energy with their surroundings. For a gas in a cylinder with a movable piston , the state of the system is identified by the temperature , pressure , and volume of the gas.
These properties are characteristic parameters that have definite values at each state and are independent of the way in which the system arrived at that state. In other words, any change in value of a property depends only on the initial and final states of the system, not on the path followed by the system from one state to another. Such properties are called state functions. In contrast, the work done as the piston moves and the gas expands and the heat the gas absorbs from its surroundings depend on the detailed way in which the expansion occurs.
By isolating samples of material whose states and properties can be controlled and manipulated, properties and their interrelations can be studied as the system changes from state to state. Thermodynamics Article Media Additional Info. Article Contents. Table Of Contents. While every effort has been made to follow citation style rules, there may be some discrepancies.
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Let us know if you have suggestions to improve this article requires login. External Websites. Gordon W. See Article History. Top Questions. The zeroth law of thermodynamics. When two systems are each in thermal equilibrium with a third system, the first two systems are in thermal equilibrium with each other. The first law of thermodynamics, or the law of conservation of energy. The second law of thermodynamics. Heat does not flow spontaneously from a colder region to a hotter region, or, equivalently, heat at a given temperature cannot be converted entirely into work.
Consequently, the entropy of a closed system, or heat energy per unit temperature, increases over time toward some maximum value. Thus, all closed systems tend toward an equilibrium state in which entropy is at a maximum and no energy is available to do useful work. The third law of thermodynamics. The entropy of a perfect crystal of an element in its most stable form tends to zero as the temperature approaches absolute zero. This allows an absolute scale for entropy to be established that, from a statistical point of view, determines the degree of randomness or disorder in a system.
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Thermodynamics , science of the relationship between heat , work , temperature , and energy. In broad terms, thermodynamics deals with the transfer of energy from one place to another and from one form to another. The key concept is that heat is a form of energy corresponding to a definite amount of mechanical work. Thermodynamics is the study of the relations between heat, work, temperature, and energy. The laws of thermodynamics describe how the energy in a system changes and whether the system can perform useful work on its surroundings. Yes, thermodynamics is a branch of physics that studies how energy changes in a system.
PRIMARY THERMODYNAMIC PROPERTIES—. P, V, T, S & U. ○Combining the first and second laws in reversible process. ○The only requirements are that.
Thermodynamics is a branch of physics that deals with heat , work , and temperature , and their relation to energy , radiation , and physical properties of matter. The behavior of these quantities is governed by the four laws of thermodynamics which convey a quantitative description using measurable macroscopic physical quantities , but may be explained in terms of microscopic constituents by statistical mechanics. Thermodynamics applies to a wide variety of topics in science and engineering , especially physical chemistry , biochemistry , chemical engineering and mechanical engineering , but also in other complex fields such as meteorology.
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