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Morteza Habibi
  Courses 

 General Physics (II)(SPRING_2019)

Aims:

This course is the second semester of introductory physics. The focus is on electricity and magnetism.

Syllabus:

  • electric charge
  • electric fields
  • Gauss Law
  • electric potential
  • capacitance
  • current and resistance
  • circuits
  • magnetic fields
  • induction
  • electromagnetic oscillations

Text Book:

  • physics, halliday,


 Industrial Applications of Plasma Engineering(SPRING_2019)

Aims:

This cource is intended to provide a description of plasma-related devices and processes which are used industrially. Because plasmas are conductive and respond to electric and magnetic fields and can be efficient sources of radiation, they are used in a large number of applications where such control is needed or when special sources of energy or radiation are required.

Syllabus:

  • introduction
  • the kinetic theory of gases
  • motion of charges in electric and magnetic fields
  • plasma charactristics
  • electron sources and beams
  • ion sources and beams
  • ionizing radiation sources
  • dark electrical discharges in gases
  • electrical glowdischarges in gases
  • electrical arc discharges in gases
  • RF discharges in gases

Text Book:

  • industrial plasma engineeringJ Reece Roth


 Tokamak (I)(SPRING_2019)

Aims:

This course begins with an overview of world energy needs, current methods of energy generation, and the potential role that fusion may play in the future. It covers energy issues such as fusion power production, power balance, and the design of a simple fusion reactor before discussing the basic plasma physics issues facing the development of fusion power – macroscopic equilibrium and stability, transport, and heating.

Syllabus:

  • the basis of tokamak plasma
  • confinement of tokamak plasmas
  • power balance in tokamaks
  • design of a medium size tokamak
  • heating and blankets
  • MHD instability

Text Book:

  • plasma physics and fusion energy, Freidberg


 Engineering Electromagnetic(FALL_2018)

Aims:

the goal of engineering electromagnetic:

Syllabus:

  • Coulombs Law and Electric Field Intensity
  • Electric Flux Density, and Gauss Law
  • Energy and Potential
  • Conductors, Dielectrics, and Capacitance
  • Poissons and Laplaces Equations
  • The Steady Magnetic Field
  • Magnetic Forces, Materials, and Inductance
  • Maxwells Equations
  • Plane Waves at Boundaries
  • ELECTRODYNAMICS

Text Book:

  • Foundations of Electromagnetic Theory (4th Edition)
  • Fundamentals of Engineering Electromagnetics


 General Physics (I)(FALL_2018)

Aims:

in this coarse the student learn about the equations and foundations of physics

Syllabus:

  • انتگرالگيري، بردارها، حركت در يك بعد، حركت در يك صفحه؛، ديناميك ذره ، كار و انرژي
  • قاي انرژي، ديناميك سيستم هاي ذرات، برخوردها، سينماتيك دوراني،
  • ديناميك دوراني، تعادل اجسام صلب، نوسانات، مكانيك سيالات

Text Book:

  • فيزيك عمومي هاليدي


 Nuclear Fusion Laboratory (I)(FALL_2018)

Aims:

in this coarse student must learn about the experimental fundations and data analysis and also work with plasma focus device.

Syllabus:

  • مباني خلاء سازي و خلاء سنجي- سيستم هاي خلاء و محفظه هاي تحت فشار-سيستم هاي تريگر و اسپارك گپ- ساختار و عملكرد پيچه روگوفسكي-
  • مدارات و الكترونيك پلاسماي كانوني- تخليه الكتريكي و كاربردهاي آن در سيستم هاي پلاسماي پالسي-
  • عملكرد و مهندسي پلاسماي كانوني- كاربردهاي پلاسماي كانوني- آشكارسازي و نوترون سنجي سيستم هاي مولد نوترون-
  • آناليز و تحليل داده هاي تجربي ابزار تشخيصي – ابزار تشخيصي در پلاسماي كانوني

Text Book:




 Nuclear Fusion Laboratory (II)(FALL_2018)

Aims:

goal:

Syllabus:

  • x ray detection
  • ion detectors
  • fusion neurons detection techniques
  • tokamaks
  • DC plasmas

Text Book:




 General Physics (II)(SPRING_2018)

Aims:

This course is the second semester of introductory physics. The focus is on electricity and magnetism.

Syllabus:

  • electric charge
  • electric fields
  • Gauss Law
  • electric potential
  • capacitance
  • current and resistance
  • circuits
  • magnetic fields
  • induction
  • electromagnetic oscillations

Text Book:

  • physics, halliday,


 Tokamak (I)(SPRING_2018)

Aims:

This course begins with an overview of world energy needs, current methods of energy generation, and the potential role that fusion may play in the future. It covers energy issues such as fusion power production, power balance, and the design of a simple fusion reactor before discussing the basic plasma physics issues facing the development of fusion power – macroscopic equilibrium and stability, transport, and heating.

Syllabus:

  • the basis of tokamak plasma
  • confinement of tokamak plasmas
  • power balance in tokamaks
  • design of a medium size tokamak
  • heating and blankets
  • MHD instability

Text Book:

  • plasma physics and fusion energy, Freidberg


 Engineering Electromagnetic(FALL_2017)

Aims:

the goal of engineering electromagnetic:

Syllabus:

  • Coulombs Law and Electric Field Intensity
  • Electric Flux Density, and Gauss Law
  • Energy and Potential
  • Conductors, Dielectrics, and Capacitance
  • Poissons and Laplaces Equations
  • The Steady Magnetic Field
  • Magnetic Forces, Materials, and Inductance
  • Maxwells Equations
  • Plane Waves at Boundaries
  • ELECTRODYNAMICS

Text Book:

  • Foundations of Electromagnetic Theory (4th Edition)
  • Fundamentals of Engineering Electromagnetics


 General Physics (I)(FALL_2017)

Aims:

in this coarse the student learn about the equations and foundations of physics

Syllabus:

  • Measurement- Motion along a straight line- Vectors- Motion in Two and Three dimensions- Force and motion 1,2- Kinetic energy and work-Potential energy and Angular momentum-Center of Mass and Linear momentum-Rotation-Rolling, Torque and angular momentum-Equilibrium-Gravitation-Oscillations

Text Book:

  • Physics, Halliday &Resnick, Jearl Walker, 10th edition, Wiley inc


 
 
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