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Tuesday, September 10, 2019

ISOTHERMAL PROCESS IN PHYSICS - During an isothermal process there is a change in internal energy, heat energy, and work, even though the temperature remains the same. To understand the basics of the isothermal process, consider the action of gases in a system. The internal energy of an ideal gas depends solely on the temperature, so the change in internal energy during an isothermal process for an ideal gas is also 0. In such a system, all heat added to a system (of gas) performs work to maintain the isothermal process, as long as the pressure remains constant. Essentially, when considering an ideal gas, work done on the system to maintain the temperature means that the volume of the gas must decrease as the pressure on the system increases.


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Pressure volume graph of adiabatic processIsothermal Process

What Is an Isothermal Process in Physics?

by Andrew Zimmerman Jones 




The science of physics studies objects and systems to measure their motions, temperatures, and other physical characteristics.
It can be applied to anything from single-celled organisms to mechanical systems to planets, stars, and galaxies and the processes that govern them.
Within physics, thermodynamics is a branch that concentrates on changes of energy (heat) in the properties of a system during any physical or chemical reaction. 
The "isothermal process," which is thermodynamic process in which the temperature of a system remains constant.
The transfer of heat into or out of the system happens so slowly that thermal equilibrium is maintained.
"Thermal" is a term that describes the heat of a system.
"Iso" means "equal", so "isothermal" means "equal heat," which is what defines thermal equilibrium.
The Isothermal Process
In general, during an isothermal process there is a change in internal energy, heat energy, and work, even though the temperature remains the same.
Something in the system works to maintain that equal temperature.
One simple ideal example is the Carnot Cycle, which basically describes how a heat engine works by supplying heat to a gas.
As a result, the gas expands in a cylinder, and that pushes a piston to do some work.
The heat or gas has to then be pushed out of the cylinder (or dumped) so that the next heat/expansion cycle can take place. This is what happens inside a car engine, for example.
If this cycle is completely efficient, the process is isothermal because the temperature is kept constant while pressure changes. 
To understand the basics of the isothermal process, consider the action of gases in a system.
The internal energy of an ideal gas depends solely on the temperature, so the change in internal energy during an isothermal process for an ideal gas is also 0.
In such a system, all heat added to a system (of gas) performs work to maintain the isothermal process, as long as the pressure remains constant.
Essentially, when considering an ideal gas, work done on the system to maintain the temperature means that the volume of the gas must decrease as the pressure on the system increases. 
Isothermal Processes and States of Matter
Isothermal processes are many and varied.
Evaporation of water into the air is one, as is the boiling of water at a specific boiling point.
There are also many chemical reactions that maintain thermal equilibrium, and in biology, the interactions of a cell with its surrounding cells (or other matter) are said to be an isothermal process.  
Evaporation, melting, and boiling, are also "phase changes." That is, they are changes to water (or other fluids or gases) that take place at constant temperature and pressure. 
Charting an Isothermal Process
In physics, charting such reactions and processes is done using diagrams (graphs).
In a phase diagram, an isothermal process is charted by following a vertical line (or plane, in a 3D phase diagram) along a constant temperature. The pressure and volume can change in order to maintain the temperature of the system.
As they do change, it is possible for a substance to change its state of matter even while its temperature remains constant.
Thus, the evaporation of water as it boils means that the temperature stays the same as the system changes pressure and volume. This is then charted with the temperature staying constant along the diagram. 
What it all Means
When scientists study isothermal processes in systems, they are really examining heat and energy and the connection between them and the mechanical energy it takes to change or maintain the temperature of a system.
Such understanding helps biologists study how living beings regulate their temperatures.
It also comes into play in engineering, space science, planetary science, geology, and many other branches of science.
Thermodynamic power cycles (and thus isothermal processes) are the basic idea behind heat engines.
Humans use these devices to power electrical generating plants and, as mentioned above, cars, trucks, planes, and other vehicles.
In addition, such systems exist on rockets and spacecraft. 
Engineers apply principles of thermal management (in other words, temperature management) to increase the efficiency of these systems and processes. 

Edited and updated by Carolyn Collins Petersen.

Andrew Zimmerman Jones
Academic researcher, educator, and writer with 23 years of experience in physical sciences
Works at Indiana Department of Education as senior assessment specialist in mathematics
Experience
Andrew Zimmerman Jones is a former writer for ThoughtCo who contributed nearly 200 articles for more than 10 years. His topics ranged from the definition of energy to vector mathematics. Andrew is a dedicated educator; and he uses his background in the physical sciences, educational assessment, writing, and communications to advance that mission. 
Andrew is co-author of String Theory For Dummies, which discusses the basic concepts of this controversial approach. String theory tries to explain certain phenomena that are not currently explainable under the standard quantum physics model. 
Since 2018, Andrew has worked at the Indiana Department of Education as a senior assessment specialist in mathematics; prior to which he served as a senior assessment editor at CTB/McGraw Hill for 10 years. In addition, Andrew was a researcher at Indiana University's Cyclotron Facility. He is a member of the National Association of Science Writers
Education
Andrew Zimmerman Jones has a Master of Science (M.S.) in Mathematics Education from Indiana University–Purdue, Indianapolis, Ind.; and a Bachelor of Arts (B.A.) in Physics from Wabash College, Crawfordsville, Ind. 
Awards and Publications
String Theory For Dummies (Wiley–For Dummies Series, 2009)
Graduated magna cum laude (Wabash College, 1999)
Harold Q. Fuller Prize in Physics (Wabash College, 1998)
ThoughtCo and Dotdash
ThoughtCo is a premier reference site focusing on expert-created education content. We are one of the top-10 information sites in the world as rated by comScore, a leading Internet measurement company. Every month, more than 13 million readers seek answers to their questions on ThoughtCo.
For more than 20 years, Dotdash brands have been helping people find answers, solve problems, and get inspired. We are one of the top-20 largest content publishers on the Internet according to comScore, and reach more than 30% of the U.S. population monthly. Our brands collectively have won more than 20 industry awards in the last year alone, and recently Dotdash was named Publisher of the Year by Digiday, a leading industry publication.

Carolyn Collins Petersen
Author/co-author of seven books on astronomy and planetary science, including Astronomy 101 and Space Exploration: Past, Present, Future
CEO of Loch Ness Productions, a production company specializing in educational materials for planetariums and science centers
Member of the American Astronomical Society and International Planetarium Society
Experience
Carolyn Collins Petersen is a science writer, producer, and former research astronomer. She is the CEO of Loch Ness Productions, a production company specializing educational documentary shows for planetariums and science centers. She has published 7 books on astronomy and planetary science, including Astronomy 101, Space Exploration: Past, Present, Future, and Hubble Vision. 
In addition to her own books and articles on astronomy, Carolyn has written exhibition texts for the Griffith Observatory in Los Angeles, the NASA/Jet Propulsion Laboratory in Pasadena, and the California Academy of Sciences in San Francisco.
Previously, Carolyn worked on a Hubble Space Telescope instrument team and served as an editor for Sky Publishing, which publishes Sky & Telescope and Skywatch. Carolyn has written more than 40 documentaries and several webcasts on space science, and she regularly gives public presentations and lectures on topics in astronomy.
Education
Carolyn earned a master's degree from the University of Colorado – Boulder, where she studied astronomy, astrophysics, and science communication. She also received her B.S. from the University of Colorado.
Publications
Visions of the Cosmos (with J.C. Brandt), 2005, Cambridge University Press
Hubble Vision (with J.C. Brandt), 2003, Cambridge University Press (two editions)
The New Solar System (editor, with K. Beatty and A.C. Chaikin), 1999, Cambridge University Press and Sky Publishing
Jupiter! 1989, Facts on File.
ThoughtCo and Dotdash
ThoughtCo is a premier reference site focusing on expert-created education content. We are one of the top-10 information sites in the world as rated by comScore, a leading Internet measurement company. Every month, more than 13 million readers seek answers to their questions on ThoughtCo.
For more than 20 years, Dotdash brands have been helping people find answers, solve problems, and get inspired. We are one of the top-20 largest content publishers on the Internet according to comScore, and reach more than 30% of the U.S. population monthly. Our brands collectively have won more than 20 industry awards in the last year alone, and recently Dotdash was named Publisher of the Year by Digiday, a leading industry publication.

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