8.01L Physics I: Classical Mechanics (MIT)
8.01L is an introductory mechanics course, which covers all the topics covered in 8.01T. The class meets throughout the fall, and continues throughout the Independent Activities Period (IAP).
Author(s): Stephans, George

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10.571J Atmospheric Physics and Chemistry (MIT)
This course provides an introduction to the physics and chemistry of the atmosphere, including experience with computer codes. It is intended for undergraduates and first year graduate students.
Author(s): McRae, Gregory,Prinn, Ronald G

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8.01X Physics I: Classical Mechanics with an Experimental Focus (MIT)
Physics I is a first-year physics course which introduces students to classical mechanics. This course has a hands-on focus, and approaches mechanics through take-home experiments. Topics include: kinematics, Newton's laws of motion, universal gravitation, statics, conservation laws, energy, work, momentum, and special relativity.
Author(s): Scholberg, Kate,Dourmashkin, Peter

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8.02X Physics II: Electricity & Magnetism with an Experimental Focus (MIT)
This course is an introduction to electromagnetism and electrostatics. Topics include: electric charge, Coulomb's law, electric structure of matter, conductors and dielectrics, concepts of electrostatic field and potential, electrostatic energy, electric currents, magnetic fields, Ampere's law, magnetic materials, time-varying fields, Faraday's law of induction, basic electric circuits, electromagnetic waves, and Maxwell's equations. The course has an experimental focus, and includes several exp
Author(s): Roland, Gunther M.,Dourmashkin, Peter

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SP.255 Physics of Rock Climbing (MIT)
SP.255 is a lecture, discussion, and project based seminar about the physics of rock climbing. Participants are first exposed to the unsolved problems in the climbing community that could be answered by research and then asked to solve a small part of one of these problems. The seminar provides an introduction to engineering problems, an opportunity to practice communication skills, and a brief stab at doing some research. This seminar explicitly does not include climbing instruction nor is clim
Author(s): Custer, David

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6.728 Applied Quantum and Statistical Physics (MIT)
6.728 is offered under the department's "Devices, Circuits, and Systems" concentration. The course covers concepts in elementary quantum mechanics and statistical physics, introduces applied quantum physics, and emphasizes an experimental basis for quantum mechanics. Concepts covered include: Schrodinger's equation applied to the free particle, tunneling, the harmonic oscillator, and hydrogen atom, variational methods, Fermi-Dirac, Bose-Einstein, and Boltzmann distribution functions, and simple
Author(s): Orlando, Terry

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8.022 Physics II: Electricity and Magnetism (MIT)
This course runs parallel to 8.02, but assumes that students have some knowledge of vector calculus. The class introduces Maxwell's equations, in both differential and integral form, along with electrostatic and magnetic vector potential, and the properties of dielectrics and magnetic materials. This class was taught by an undergraduate in the Experimental Study Group (ESG). Student instructors are paired with ESG faculty members, who advise and oversee the students' teaching efforts.
Author(s): Shaw, Michael

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PSU/SL Physics Animations Portal
This web site contains a large collection of animations illustrating basic concepts in Physics and Astronomy. It covers topics in Astronomy, Mechanics, Vectors, Electricity and Magnetism, Optics, Waves, and Modern Physics at both introductory and an advanced undergraduate level. Users can browse by topic or search for relevant animations. Animations can be viewed in a number of different formats, either embedded in a web page or through the downloaded media file.
Author(s): No creator set

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22.101 Applied Nuclear Physics (MIT)
This course explores elements of nuclear physics for engineering students. It covers basic properties of the nucleus and nuclear radiations; quantum mechanical calculations of deuteron bound-state wave function and energy; n-p scattering cross section; transition probability per unit time and barrier transmission probability. It also covers binding energy and nuclear stability; interactions of charged particles, neutrons, and gamma rays with matter; radioactive decays; and energetics and general
Author(s): Yip, Sidney

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8.952 Particle Physics of the Early Universe (MIT)
This course covers the basics of general relativity, standard big bang cosmology, thermodynamics of the early universe, cosmic background radiation, primordial nucleosynthesis, basics of the standard model of particle physics, electroweak and QCD phase transition, basics of group theory, grand unified theories, baryon asymmetry, monopoles, cosmic strings, domain walls, axions, inflationary universe, and structure formation.
Author(s): Wilczek, Frank

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Physics Education Technology (PhET)
List of units in the University of Colorado PhET collection
Author(s): Creator not set

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22.611J Introduction to Plasma Physics I (MIT)
The plasma state dominates the visible universe, and is important in fields as diverse as Astrophysics and Controlled Fusion. Plasma is often referred to as "the fourth state of matter." This course introduces the study of the nature and behavior of plasma. A variety of models to describe plasma behavior are presented.
Author(s): Parker, Ron

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8.231 Physics of Solids I (MIT)
This course offers an introduction to the basic concepts of the quantum theory of solids.
Author(s): Wen, Xiao-Gang

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22.05 Neutron Science and Reactor Physics (MIT)
This course introduces fundamental properties of the neutron. It covers reactions induced by neutrons, nuclear fission, slowing down of neutrons in infinite media, diffusion theory, the few-group approximation, point kinetics, and fission-product poisoning. We emphasize the nuclear physics basis of reactor design and its relationship to reactor engineering problems.
Author(s): Bernard, John A.

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8.02 Physics II: Electricity and Magnetism (MIT)
This freshman-level course is the second semester of introductory physics. The focus is on electricity and magnetism. The subject is taught using the TEAL (Technology Enabled Active Learning) format which utilizes small group interaction and current technology. The TEAL/Studio Project at MIT is a new approach to physics education designed to help students develop much better intuition about, and conceptual models of, physical phenomena. Staff List Visualizations: Prof. John Belcher Instructors
Author(s): Faculty, Lecturers, and Technical Staff, Physics D

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3.063 Polymer Physics (MIT)
This course presents the mechanical, optical, and transport properties of polymers with respect to the underlying physics and physical chemistry of polymers in melt, solution, and solid state. Topics include conformation and molecular dimensions of polymer chains in solutions, melts, blends, and block copolymers; an examination of the structure of glassy, crystalline, and rubbery elastic states of polymers; thermodynamics of polymer solutions, blends, crystallization; liquid crystallinity, micro
Author(s): Thomas, Edwin (Ned)

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12.425 Extrasolar Planets: Physics and Detection Techniques (MIT)
This course covers the basic principles of planet atmospheres and interiors applied to the study of extrasolar planets (exoplanets). We focus on fundamental physical processes related to observable exoplanet properties. We also provide a quantitative overview of detection techniques and an introduction to the feasibility of the search for Earth-like planets, biosignatures and habitable conditions on exoplanets.
Author(s): Seager, Sara

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Nuclear Physics
Start a chain reaction, or introduce non-radioactive isotopes to prevent one. Watch alpha particles escape from a Polonium nucleus, causing radioactive alpha decay. Control energy production in a nuclear reactor!
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8.334 Statistical Mechanics II: Statistical Physics of Fields (MIT)
This is the second term in a two-semester course on statistical mechanics. Basic principles are examined in 8.334, such as the laws of thermodynamics and the concepts of temperature, work, heat, and entropy. Topics from modern statistical mechanics are also explored including the hydrodynamic limit and classical field theories.
Author(s): Kardar, Mehran

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8.044 Statistical Physics I (MIT)
This course offers an introduction to probability, statistical mechanics, and thermodynamics. Numerous examples are used to illustrate a wide variety of physical phenomena such as magnetism, polyatomic gases, thermal radiation, electrons in solids, and noise in electronic devices.
Author(s): Lee, Young

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