Quantum Mechanics: Quantum physics in 1D Potentials Massachusetts Institute of Technology via edX Learn how to solve the Schrodinger equation for a particle moving in one-dimensional potentials relevant to physical applications. Astrophysics: The Violent Universe Australian National University via edX Explore the deadliest places in the universe, from black holes to supernovae. Introduction into General Theory of Relativity Higher School of Economics via Coursera General Theory of Relativity or the theory of relativistic gravitation is the one which describes black holes, gravitational waves and expanding Universe.
The goal of the course is to introduce you into this theory. In this Master Class, learn how they conduct this search and what mysteries they hope to solve about our universe. String theorist Samir Mathur has been working for many years on this yet-unsolved problem, and has a radical solution to the so-called information paradox. Join him as he explores the history of this amazing project and the technology that made it a reality. Particle Physics: an Introduction University of Geneva via Coursera This course introduces you to subatomic physics, i.
In this Master Class, Maria Spiropulu, Professor of Physics at Caltech, examines the robustness of the Standard Model, and takes a look at the future of particle physics. Addressing Large Hadron Collider Challenges by Machine Learning Higher School of Economics via Coursera The assignments of this course will give you opportunity to apply your skills in the search for the New Physics using advanced data analysis techniques.
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Upon the completion of the course you will understand both the principles of the Experimental Physics and Machine Learning much better. It presents the strengths and weaknesses of each method so that you can choose the one that provides you with the information you need. It also reviews what each method cannot give to you, as well as how to interpret the results obtained from each method.
EFTx is a graduate course on Effective Field Theory EFT , which provides a fundamental framework to describe physical systems with quantum field theory. For residential students it is listed as 8. Past and Future of Unification via World Science U Throughout the history of physics, scientists have worked to unify many different fields into an all-encompassing description of the universe.
String theorist Robbert Dijkgraaf, Director and Leon Levy Professor at the Institute for Advanced Study, discusses the connections between the very big and the infinitesimally small. Fundamental Lessons From String Theory via World Science U Cumrun Vafa, together with fellow world-renowned string theorist Andrew Strominger, developed a new way to calculate black hole entropy in the language of string theory.
Join in if you are curious but not necessarily knowledgeable about algorithms, and about the deep insights into science that you can obtain by the algorithmic approach. Mechanics: Kinematics and Dynamics Massachusetts Institute of Technology via edX Learn about kinematics and dynamics in this calculus-based physics course. Kinematics: Describing the Motions of Spacecraft University of Colorado Boulder via Coursera This course in Kinematics covers four major topic areas: an introduction to particle kinematics, a deep dive into rigid body kinematics in two parts.
The course ends with a look at static attitude determination, using modern algorithms to predict and execute relative orientations of bodies in space. Mechanics: Motion, Forces, Energy and Gravity, from Particles to Planets University of New South Wales via Coursera This on-demand course is recommended for senior high school and beginning university students and anyone with a curiosity about basic physics. The course uses rich multimedia tutorials to present the material: film clips of key experiments, animations and worked example problems, all with a friendly narrator.
Mechanics: Simple Harmonic Motion Massachusetts Institute of Technology via edX Learn how to solve and understand simple harmonic motion in this calculus-based physics class. Mechanics: Rotational Dynamics Massachusetts Institute of Technology via edX Learn about rotational dynamics, rigid bodies and moment of inertia in this calculus-based physics course.
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- Materials and Photons.
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Mechanics: Momentum and Energy Massachusetts Institute of Technology via edX Learn about momentum and energy in this calculus-based physics course. Introduction to Mechanics, Part 1 Rice University via edX Learn the physics of how things move with this calculus-based course in mechanics. Control of Nonlinear Spacecraft Attitude Motion University of Colorado Boulder via Coursera This course trains you in the skills needed to program specific orientation and achieve precise aiming goals for spacecraft moving through three dimensional space.
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Electronic Materials and Devices Massachusetts Institute of Technology via edX Learn how electronic devices, such as diodes and transistors, are designed to exploit the electrical properties of materials. Electricity and Magnetism: Electrostatics Massachusetts Institute of Technology via edX Learn how charges interact with each other and create electric fields and electric potential landscapes in this introductory-level physics course.
Electricity and Magnetism: Magnetic Fields and Forces Massachusetts Institute of Technology via edX Learn how charges create and move in magnetic fields and how to analyze simple DC circuits in this introductory-level physics course.
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This introductory Electromagnetism physics course will require the use of calculus. This course provides the students a thorough understanding of the fundamentals of lasers: their unique properties, their operations and their applications.
In particular the description of the solar cell operation is restricted to the ideal case In contrast this second MOOC allows a deep understanding of the properties of solar cells based on crystalline semiconductors. Getting started in cryo-EM California Institute of Technology via Coursera This class covers the fundamental principles underlying cryo-electron microscopy cryo-EM starting with the basic anatomy of electron microscopes, an introduction to Fourier transforms, and the principles of image formation.
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Building upon that foundation, the class then covers the sample preparation issues, data collection strategies, and basic image processing workflows for all 3 basic modalities of modern cryo-EM: tomography, single particle analysis, and 2-D crystallography. Learn the fundamentals as well as the latest achievements and modern applications. Graduate Texts in Physics Free Preview. Show next edition. Introduces quantum mechanics with a unique focus on examples and applications in materials science and photon-matter interactions Presents advanced quantum mechanics clearly enough to make it accessible to graduate students in physics, chemistry and engineering Includes over problems to aid in student's comprehension see more benefits.
Buy eBook. Buy Softcover. Rent the eBook. FAQ Policy. About this Textbook Advanced Quantum Mechanics: Materials and Photons is a textbook which emphasizes the importance of advanced quantum mechanics for materials science and all experimental techniques which employ photon absorption, emission, or scattering. Show all. Formal Developments Pages Dick, Rainer. It seems that you're in Germany.
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We have a dedicated site for Germany. In this updated and expanded second edition of a well-received and invaluable textbook, Prof. Dick emphasizes the importance of advanced quantum mechanics for materials science and all experimental techniques which employ photon absorption, emission, or scattering. Important aspects of introductory quantum mechanics are covered in the first seven chapters to make the subject self-contained and accessible for a wide audience. Advanced Quantum Mechanics, Materials and Photons can therefore be used for advanced undergraduate courses and introductory graduate courses which are targeted towards students with diverse academic backgrounds from the Natural Sciences or Engineering.
To enhance this inclusive aspect of making the subject as accessible as possible Appendices A and B also provide introductions to Lagrangian mechanics and the covariant formulation of electrodynamics. Other special features include an introduction to Lagrangian field theory and an integrated discussion of transition amplitudes with discrete or continuous initial or final states.