Nuclear Science and Engineering

  • 6.071J / 22.071J Introduction to Electronics, Signals, and Measurement, Spring 2006
    The course is designed to provide a practical – hands on – introduction to electronics with a focus
  • HST.584J / 22.561J Magnetic Resonance Analytic, Biochemical, and Imaging Techniques, Spring 2006
    This course is an introduction to basic NMR theory. Examples of biochemical data obtained using NMR
  • 3.40J / 22.71J Physical Metallurgy, Spring 2003
    Discusses structure-property relationships in metallic alloys selected to illustrate some basic conc
  • 3.40J / 22.71J Physical Metallurgy, Spring 2004
    This course examines how the presence of 1-, 2- and 3D defects and second phases control the mechani
  • 2.60 / 2.62J / 10.392J / 22.40J Fundamentals of Advanced Energy Conversion, Spring 2004
    This course covers fundamentals of thermodynamics, chemistry, flow and transport processes as applie
  • 2.96 / 6.930 / 10.806 / 16.653 / 22.002 Management in Engineering, Fall 2004
    This course serves as an introduction to engineering management. Topics include financial principles
  • 22.00J / 1.021J / 2.030J / 3.021J / 10.333J / 18.361J / HST.558J Introduction to Modeling and Simulation, Spring 2006
    This course surveys the basic concepts of computer modeling in science and engineering using discret
  • 22.012 / 22.S27 Seminar: Fusion and Plasma Physics, Spring 2006
    This course uses lectures and discussion to introduce the range of topics relevant to plasma physics
  • 22.01 Introduction to Ionizing Radiation, Fall 2003
    This course is an introduction to basic properties of ionizing radiations and their uses in medicine
  • 22.02 Introduction to Applied Nuclear Physics, Spring 2003
    Basic concepts of nuclear physics with emphasis on nuclear structure and radiation interactions with
  • 22.033 / 22.33 Nuclear Systems Design Project, Fall 2002
    Group design project involving integration of nuclear physics, particle transport, control, heat tra
  • 22.058 Principles of Medical Imaging, Fall 2002
    An introduction to the principles of tomographic imaging and its applications. It includes a series
  • 22.101 Applied Nuclear Physics, Fall 2004
    This subject deals with foundational knowledge for all students in NED. Emphasis is on nuclear conce
  • 22.101 Applied Nuclear Physics, Fall 2003
    The topics covered under this course include elements of nuclear physics for engineering students, b
  • 22.103 Microscopic Theory of Transport, Fall 2003
    Transport is among the most fundamental and widely studied phenomena in science and engineering. Thi
  • 22.105 Electromagnetic Interactions, Fall 1998
    Principles and applications of electromagnetism, starting from Maxwell\’s equations, with emphasis o
  • 22.106 Neutron Interactions and Applications, Spring 2005
    This course is a foundational study of the effects of single and multiple interactions on neutron di
  • 22.312 Engineering of Nuclear Reactors, Fall 2004
    This course covers engineering principles of nuclear reactors, emphasizing power reactors. Topics in
  • 22.313 Thermal Hydraulics in Nuclear Power Technology, Spring 2005
    This course covers the thermo-fluid dynamic phenomena and analysis methods for conventional and nucl
  • 22.314J / 1.56J / 2.084J Structural Mechanics in Nuclear Power Technology, Spring 2004
    This course deals with structural components in nuclear power plant systems, their functional purpos
  • 22.351 Systems Analysis of the Nuclear Fuel Cycle, Spring 2003
    In-depth technical and policy analysis of various options for the nuclear fuel cycle. Topics include
  • 22.38 Probability And Its Applications To Reliability, Quality Control, And Risk Assessment, Fall 2005
    This course covers interpretations of the concept of probability. Topics include basic probability r
  • 22.39 Integration of Reactor Design, Operations, and Safety, Fall 2005
    This course integrates studies of engineering sciences, reactor physics and safety assessment into n
  • 22.51 Interaction of Radiation with Matter, Spring 2003
    Basic principles of interaction of electromagnetic radiation, thermal neutrons, and charged particle
  • 22.55J / HST.560J Principles of Radiation Interactions, Fall 2004
    The central theme of this course is the interaction of radiation with biological material. The cours
  • 22.56J / 2.761J / 20.483J / HST.561J / 9.713J Noninvasive Imaging in Biology and Medicine, Fall 2005
    22.56J aims to give graduate students and advanced undergraduates background in the theory and appli
  • 22.616 Plasma Transport Theory, Fall 2003
    This course describes the processes by which mass, momentum, and energy are transported in plasmas,
  • 22.68J / 2.64J Superconducting Magnets, Spring 2003
    This course focuses on one important engineering application of superconductors — the generation of
  • 22.812J / ESD.163J Managing Nuclear Technology, Spring 2004
    An examination of current economic and policy issues in the electric power industry, focusing on nuc
  • 22.903 Photon and Neutron Scattering Spectroscopy and Its Applications in Condensed Matter, Spring 2005
    The purpose of this course is to discuss modern techniques of generation of x-ray photons and neutro
  • 22.920 A Hands-On Introduction to Nuclear Magnetic Resonance, January (IAP) 1997
    Hands-on introduction to NMR presenting background in classical theory and instrumentation. Each lec
  • 22.921 Nuclear Power Plant Dynamics and Control, January (IAP) 2006
    This short course provides an introduction to reactor dynamics including subcritical multiplication,
  • 22.A09 / 22.013 Career Options for Biomedical Research, Fall 2005
    This course has been designed as a seminar to give students an understanding of how scientists with