PK Q; ; imsmanifest.xml
IMS Content
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Ionized Gases
OCW Master Course Number
16.55
Fall 2014
OCW_LOMv1.0
Author
Martinez-Sanchez, Manuel
2020-12-27
OCW_LOMv1.0
Author
Lozano, Paulo
2020-12-27
OCW Course Topics
Engineering
Aerospace Engineering
Propulsion Systems
contents/index.htm.xml
Ionized Gases
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Ionized Gases
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16_55f14.jpg
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16_55f14-th.jpg
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Assignments
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16.55 Fall 2014 Assignment 3
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16.55 Fall 2014 Assignment 4
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16.55 Fall 2014 Assignment 1
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16.55 Fall 2014 Assignment 2
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16.55 Fall 2014 Assignment 5
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Syllabus
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Instructor Insights
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16-55_classroom-1.jpg
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16-55_stat-students.png
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Lecture Notes
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16.55 Fall 2014 Lecture 23 Notes: Atoms and Molecules
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16.55 Fall 2014 Lecture 15 Notes: Maxwellian Collisions
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16.55 Fall 2014 Lecture 22 Notes: Applications of Statistical Mechanics
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16.55 Fall 2014 Lecture 9 Notes: Boltzmann’s H-Theorem
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16.55 Fall 2014 Lecture 12 Notes: Equilibrium in a Force Field
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16.55 Fall 2014 Lecture 6-7 Notes: Collision Theory
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16.55 Fall 2014 Lecture 20-21 Notes: Equilibrium Statistical Mechanics
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16.55 Fall 2014 Lecture 24 Notes: Radiation Transport in a Gas
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16.55 Fall 2014 Lecture 18 Notes: Electrostatic Probes
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16.55 Fall 2014 Lecture 16 Notes: The Electron Energy Equation
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16.55 Fall 2014 Lecture 8 Notes: Kinetic Theory
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16.55 Fall 2014 Lecture 10-11 Notes: The Equilibrium Distribution and its Properties
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16.55 Fall 2014 Lecture 17 Notes: Structure of the Plasma Sheath
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16.55 Fall 2014 Lecture 13-14 Notes: Moments of the Boltzmann Equation
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16.55 Fall 2014 Lecture 25 Notes: Semi-thick plasma approximation
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16.55 Fall 2014 Lecture 4 Notes: Connection to Fluids
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16.55 Fall 2014 Lecture 3 Notes: More Drifts
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16.55 Fall 2014 Lecture 19 Notes: Orbital Motion Limit
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16.55 Fall 2014 Lecture 1 Notes: Fundamentals of Plasma Physics
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16.55 Fall 2014 Lecture 2 Notes: Motion of Charges in Uniform Fields
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16.55 Fall 2014 Lecture 5 Notes: Adiabatic Invariants
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Legal Notices
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Privacy Statement
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Trademark Notices
contents/lecture-notes/MIT16_55F14_Lecture16.pdf.xml
contents/assignments/MIT16_55F14_Assignment1.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture25.pdf.xml
contents/instructor-insights/16-55_stat-students.png.xml
contents/lecture-notes/MIT16_55F14_Lecture15.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture12.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture4.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture24.pdf.xml
contents/assignments/MIT16_55F14_Assignment5.pdf.xml
contents/instructor-insights/index.htm.xml
contents/assignments/MIT16_55F14_Assignment4.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture17.pdf.xml
contents/syllabus/index.htm.xml
contents/assignments/index.htm.xml
contents/lecture-notes/MIT16_55F14_Lecture23.pdf.xml
contents/16_55f14.jpg.xml
contents/16_55f14-th.jpg.xml
contents/instructor-insights/16-55_classroom-1.jpg.xml
contents/index.htm.xml
contents/lecture-notes/MIT16_55F14_Lecture8.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture6-7.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture1.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture18.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture2.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture20-21.pdf.xml
contents/assignments/MIT16_55F14_Assignment2.pdf.xml
contents/lecture-notes/index.htm.xml
contents/lecture-notes/MIT16_55F14_Lecture10-11.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture3.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture19.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture13-14.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture5.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture9.pdf.xml
contents/lecture-notes/MIT16_55F14_Lecture22.pdf.xml
contents/assignments/MIT16_55F14_Assignment3.pdf.xml
PK Q~3! 16-55-fall-2014/ReadMe.txtThis zip package contains the HTML pages and files associated with the course.
Some materials - such as videos, java applets, and other special content - are not posted on the OCW server, and are therefore not part of this package. This prevents zip packages from becoming too large for download. To download these resources to your computer, please read the FAQ at https://ocw.mit.edu/help/faq-technology/ .
Use of the materials in this package are governed by the same Creative Commons license as all other materials published on MIT OpenCourseWare. For more information, see https://ocw.mit.edu/terms .
If you have any trouble using this package, please contact us at ocw@mit.edu .PK Q%aD6 6 16-55-fall-2014/START.htm
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PK Qp20 20 , 16-55-fall-2014/contents/16_55f14-th.jpg.xml
16_55f14-th.jpg
Artist's conception of the New Millennium Deep Space 1 spacecraft. Courtesy of the Jet Propulsion Laboratory of NASA. Image is in the public domain.
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LOMv1.0
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Fall 2014
OCW_LOMv1.0
Author
Martinez-Sanchez, Manuel
2020-12-27
OCW_LOMv1.0
Author
Lozano, Paulo
2020-12-27
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This site (c) Massachusetts Institute of Technology 2020. Content within individual courses is (c) by the individual authors unless otherwise noted. The Massachusetts Institute of Technology is providing this Work (as defined below) under the terms of this Creative Commons public license ("CCPL" or "license") unless otherwise noted. The Work is protected by copyright and/or other applicable law. Any use of the work other than as authorized under this license is prohibited. By exercising any of the rights to the Work provided here, You (as defined below) accept and agree to be bound by the terms of this license. The Licensor, the Massachusetts Institute of Technology, grants You the rights contained here in consideration of Your acceptance of such terms and conditions.
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OCW Master Course Number
16.55 Ionized Gases Fall 2014
This course highlights the properties and behavior of low-temperature plasmas in relation to energy conversion, plasma propulsion, and gas lasers. The course includes material on the equilibrium (energy states, statistical mechanics, and relationship to thermodynamics) and kinetic theory of ionized gases (motion of charged particles, distribution function, collisions, characteristic lengths and times, cross sections, and transport properties). In addition, the course discusses gas surface interactions (thermionic emission, sheaths, and probe theory) and radiation in plasmas and diagnostics.
CIP
490101
Ionized gases
plasma physics
motion of charges
drift
adiabatic invariants
collision theory
kinetic theory
H theorem
entropy
Maxwellian distribution
Boltzmann equation
plasma sheath
electrostatic probe
orbital motion limit
equilibrium statistical mechanics
radiation transport
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