Physics of energy generation via alternative energy sources. Syllabus, calendar,
lecture notes, assignments, exams, student work, and links to related materials. By Greg
Bothun, University of Oregon.
Exercises in gathering material from Internet resources as the primary means of data
acquisition. Syllabus, calendar, assignments, student work, and links to related
materials. By William T. Franz, Randolph-Macon College.
Mechanics of sports, astrophysics, friction of curling ice, how an egg breaks, what
would happen if a comet struck the earth, determining the mass of Jupiter by observing
satellites, how the impact on the foot varies with type of running, and terminal velocity
experiments. Syllabus, assignments, and student work. By Robert Hawkes, Mount Allison
University.
Algebra-based. Java applets and Mathematica notebooks. Lecture notes, assignments, and
links to related materials. By Kenneth R. Koehler, University of Cincinnati.
Numerical methods, Monte Carlo techniques concentrating on simulation applications, how
to extract information from simulated data using statistics, and chaotic dynamics.
Syllabus, lecture notes, assignments, and links to related materials. By Dean Karlen,
Carleton University, Canada.
Course. Syllabus, lecture notes, assignments, exams, and student work. By Paul Abbott,
University of Western Australia.
For non-science majors. Summer 1996. Syllabus and assignments. By Jerry Lisantti,
Centenary College of Louisiana.
Electricity and magnetism. Lecture notes. Assignments. Exams. Links to related
materials. Interactive tutorials. Discussion forum. Cartoon animations. Java applets. By
Janak Sodha, University of the West Indies.
Calculus-based. Syllabus, calendar, and exams. By David Kagan, California State
University, Chico.
Description. Syllabus. Lecture notes. Assignments. Links to related materials. By Horn
CHEAH, Nanyang Technological University.
Calculus-based. Syllabus. Calendar. Lecture notes. Assignments. Exams. Links to related
materials. By George Watson, University of Delaware.
Honors-level. Syllabus, assignments, exams, and links to related materials. By Soren P.
Sorensen, University of Tennessee.
Lower-division electromagnetism and optics course (non-calculus). Syllabus. Lecture
notes. By Richard Fitzpatrick, University of Texas at Austin.
Mechanics, fluids, and thermodynamics. Java simulations. Online: Syllabus. Calendar.
Lecture notes. Assignments. Exams. Links to related materials. Homework solutions Sample
tests. By Andrew Duffy, Boston University.
Electricity and magnetism, optics, and modern physics. Online: Syllabus. Calendar.
Lecture notes. Assignments. Exams. Links to related materials. Sample tests. Interactive
questions and problems. By Andrew Duffy, Boston University.
Environmental consequences of energy generation and use. Syllabus. Calendar. Lecture
notes. Assignments. Exams. Student work. Links to related materials. By Mark H. Shapiro,
California State University, Fullerton.
Calculus-based. Syllabus, calendar, lecture notes, and assignments. By James S. Meyer,
St Gregory's College.
Preparation of optic fibre ends, fusion splicing, OTDR, power meters, mechanical splice
equipment, and termination equipment. Lecture notes and links to related materials. By
Hugh Reid, Bell College Of Technology, UK.
In Spanish. Band structure of 16 compounds in the LCAO (tight binding) approximation.
Syllabus, calendar, and links to related materials. By Alfonso Munoz, Universidad de La
Laguna, Spain.
UNIX, EMACS, RCS, and computer graphics. Syllabus, assignments, and links to related
materials. By Eric Myers, Vassar College.
Quantum mechanics. Syllabus, calendar, lecture notes, assignments, and links to related
materials. By S. Pollock, University of Colorado, Boulder.
Calculus-based. Assignments, homework hints, and links to related materials. By Mark H.
Shapiro, California State University, Fullerton.
Calculus-based. Syllabus, calendar, assignments, and homework hints. By Mark H.
Shapiro, California State University, Fullerton.
Greek science, mathematics, and astronomy: Thales, Pythagoras, Zeno, Plato, Aristotle,
Aristarchus, Eudoxus, Archimedes, Ptolemy, Hypatia. Copernicus, Tycho Brahe, Kepler,
Galileo on scaling, acceleration, projectiles, and the moon and planets. Newton’s Laws.
Syllabus, calendar, lecture notes, assignments, exams, and links to related materials. By
Michael Fowler, University of Virginia.
Virtual study room. Syllabus, calendar, grades, and links to related materials. By Carl
Adler, East Carolina University.
Designed for first-year physics majors. Lecture notes. Assignments. By H.F. Cheung and
Peter Yu, City University of Hong Kong.
For science majors. Java applets for interactive simulations and an online lab manual.
Syllabus. Assignments. Exams. Tutorials. By Ian Littlewood, California State University,
Stanislaus.
Thermal physics, waves and optics, electricity and magnetism, electronics, fluids, and
vacuum physics. Lecture notes. By A.C. Fischer-Cripps, University of Technology,
Australia.
Calculus-based. Mechanics, mechanical waves, and thermodynamics. Syllabus, calendar,
lecture notes, assignments, problem-set solutions, exams, grades, and links to related
materials. By D. Carlsmith, University of Wisconsin - Madison.
Algebra/trigonometry-based. Syllabus, calendar, lecture notes, assignments, and links
to related materials. By James S. Meyer, St Gregory's College.
On-line electronic assignments. Syllabus. Calendar. Assignments. Exams. Grades. Links
to related materials. By George Kolodiy, Rutgers University.
On-line examinations electronically graded and submitted to recitation instructors.
Syllabus. Calendar. Assignments. Exams. Grades. Links to related materials. By George
Kolodiy, Rutgers University.
Graduate-level. Manifolds, tensors, Riemannian geometry, Einstein's equations,
gravitational radiation, black holes, and cosmology. Lecture notes. By Sean Carroll,
University of Chicago.
Course. Syllabus, calendar, assignments, exams, grades, and links to related materials.
By Maurice Barnhill, University of Delaware.
Course. Syllabus, calendar, assignments, exams, grades, and links to related materials.
By Maurice Barnhill, University of Delaware.
Course. Syllabus, calendar, and assignments. By Kaushik De, University of Texas at
Arlington.
Uses video teleconferencing supported by ISDN-based teleconferencing equipment or
Internet-based CU-SeeMe. Lecture schedule. By Martin Berz, Michigan State University.
Calculus-based. Concepts of translational and rotational kinematics and dynamics,
equilibrium of rigid bodies, oscillations and special relativity illustrated within
situations ranging from the environment to subatomic physics. Syllabus, calendar, feedback
and questions facility, assignments, and links to related materials. By John R. Dutcher,
University of Guelph, Canada.
Introduction to Physics. Mechanics (motion, forces, energy), oscillation and waves, and
on thermal physics (temperature, heat, thermodynamics). Syllabus. Exams. Grades. Video
clips of experiments. By Wolfgang Bauer, Michigan State University.
Introduction to Physics II. Electricity and magnetism, optics, and quantum physics.
Syllabus. Assignments. Exams. Grades. Graphics. Applets. By Wolfgang Bauer, Michigan State
University.
Course. Syllabus, calendar, lecture notes, assignments, student work, and links to
related materials. By Dan MacIsaac, Purdue University.
Course. Lecture notes, exams, and links to related materials. By Fred Gram, Cuyahoga
Community College.
Multimedia introduction to the theory of relativity for use in a non-science major
course. Lecture notes. By Rob Salgado, Syracuse University.
Calculus-based. Syllabus, calendar, assignments, exams, grades, and links to related
materials. By Gregor M. Novak, Indiana University-Purdue University at Indianapolis.
Senior-level. Complex analysis, asymptotic methods, differential equations, transform
calculus, Sturm-Liouville theory, calculus of variations. Syllabus. Lecture notes. By Mark
Trodden, Case Western Reserve University.
Particle and wave properties of matter, atomic structure, quantum mechanics, and the
quantum mechanical model of the atom. Syllabus. Calendar. Lecture notes. Assignments.
Exams. Links to related materials. By V. Wijekumar, Indiana University of Pennsylvania.
Nuclear and particle physics. Symmetries and quantum numbers. Syllabus. Calendar.
Lecture notes. Assignments. Links to related materials. By Niels Walet, University of
Manchester Institute of Science and Technology.
Interactive tour of the inner workings of the tom and the tools for discovery. Quarks,
neutrinos, unified forces, and dark matter. Links to related materials. By M. Barnett,
Lawrence Berkeley National Laboratory.
Course. Syllabus, assignments, exams, and links to related materials. By Charles
Johnson, South Georgia College.
Delivered entirely over the Internet. Syllabus, calendar, assignments, and links to
related materials. By Allen Shotwell, Ivy Tech State College.
Delivered entirely over the Internet. Syllabus, calendar, assignments, and links to
related materials. By Allen Shotwell, Ivy Tech State College.
Course. Syllabi, handouts, and instructions for using computerized homework service. By
Faculty, University of Texas at Austin.
Calculus-based. Lab deals with physical systems and computer numerical techniques.
Emphasis on mathematical analysis of systems. Syllabus, calendar, and links to related
materials. By William Roy Hall, Community College of Allegheny County - South Campus.
Course. Syllabus, calendar, lecture notes, assignments, exams, and grades. By John W.
Robson, University of Arizona.
Graduate-level. Fall 1996. Material in PDF format. Syllabus, calendar, lecture notes,
assignments, homework solutions, newsgroup, and links to related materials. By Marianne
Breinig, University of Tennessee.
Introduction to Quantum Mechanics. 1D problems such as potential well, steps barriers
and harmonic oscillators. Discussion of the hydrogen atom. Syllabus. Calendar. Lecture
notes. Assignments. Exams. Links to related materials. By Niels Walet, University of
Manchester Institute of Science and Technology.
Review. Online: Syllabus. Calendar. Assignments. Student work. Links to related
materials. By John A. Venables, Arizona State University.
Electricity, forces, magnetism, sound, and introductory chemistry for primary
(elementary) school teachers. Lecture notes. By Clive Buckley and David Harrison, North
East Wales Institute of Higher Education, UK.
Scientific literacy for non-science majors. Calendar, assignments, student work, and
links to related materials. By Ed Lipson, Syracuse University.
Solid-state physics. Syllabus. Lecture notes. Assignments. Exams. Links to related
materials. Animations. By Horn-Mun CHEAH, Nanyang Technological University, Singapore.
For non-science majors. Based on Hawking's A Brief History of Time. Special
relativity, quantum mechanics, elementary particles, and black holes. Syllabus and links
to related materials. By R. Hickey, Hartwick College.
Connections between mathematics and its application in physics by re-introducing the
mathematical concepts with physical models. Enhances mathematical intuition with physical
analogies and physical intuition with mathematical analogies. Syllabus, calendar, and
lecture notes. By Rob Salgado, Syracuse University.
Graduate-level. Problems, presentations, and mini-projects. Syllabus, calendar, lecture
notes, and links to related materials. By John A. Venables, Arizona State University.
Course. Syllabus, calendar, lecture notes, assignments, and links to related materials.
By Peter Dunsby, University of Cape Town, South Africa.
Java visualizations and materials. Lecture notes, student work, and links to related
materials. By Vladimir Sorokin, University of Kentucky.
Four courses. Syllabus, calendar, assignments, Mathcad files, and links to related
materials. By Miron Kaufman, Cleveland State University.
Three courses: Physics of Energy and the Environment, The Scientific Basis for the
Man-Nature Partnership, and General Physics. Syllabi, exams, homework, and lecture notes.
By Faculty, University of Oregon.
Links to several courses. Assignments and exams. By Faculty, University of
Pennsylvania.
Links to several undergraduate and graduate courses, including Science for Survival,
Electromagnetism, and Computational Physics. Syllabus, lecture notes, and assignments. By
Faculty, Carleton University, Canada.
Course. Syllabus, calendar, assignments, and exams. By Richard J. Jacob, Arizona State
University.
VRML virtual worlds collection for visualizing the electromagnetic field as vector
fields and as differential-form fields. Requires a VRML-capable browser. Links to related
materials. By Rob Salgado, Syracuse University.
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