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01:09:52 Schrodinger equation and mean-field approximation… Schrodinger equation and mean-field approximation - Lecture 1.2	Schrodinger equation and mean-field approximation - Lecture 1.2 2016 PARADIM SUMMER SCHOOL Feliciano Giustino - Lecture 1.2 concepts in physics chemical elements simple equation solutions characteristic energy body wave function electronic structure correlation potential electron density architectural elements square divided 1st principles electron egyptian artefact types grammar particle equation electron charge force kinetic energy potential energy philosophical terminology principles nuclear mass hydrogen physics 1st electron particle physics quantum chemistry chemical properties body problem starting point cool interaction biology and pharmacology of chemical elements spintronics f.t. environmental science people talk atoms independent particle functions and mappings potential exacted chemical processes exclusion principle helium atom conservation laws mechanics extra potential electronic structure methods electron basically communication forms of energy reference frame tomorrow morning experimental parameter electrostatics complex number quantum mechanics hydrogen wave functions completely ignore single particle minus $13.00 quantum models airship technology 100 years potential energy coming physical quantities basically minus condensed matter physics potential energy hydrogen atom independent events nuclear potential pretty table column interaction state functions 40000 points takes care mathematical terminology square model helium physical principle caption complete single particle equation hydrogen semiconductor materials kinetic energy exchange potential total energy independent electron good news partial differential equations electron mass 1st step human communication electromagnetism electronic variables atomic number mass wave function From James Overhiser on February 15th, 2019 171 plays
01:02:12 DFT: Many Body Problems (Lecture 1.2) DFT: Many Body Problems (Lecture 1.2)	DFT: Many Body Problems (Lecture 1.2) 2018 PARADIM SUMMER SCHOOL Lecture 1.2 Many body Problem mechanics electronic engineering independent particles force potential depends electronic structure methods communication energy philosophical terminology concepts in physics principles hydrogen physics exact solution forms of energy f.c.c. letter number exact number single electron reference frame hydrogen particle physics caption complete independent letter independent event quantum chemistry 1st function helium electron density quantum mechanics starting point potential potential coming kinetic energy previous life single particle total energy electoral vote square divided independent electron 1st principles study potential algebra quantum models fair amount local potential atoms electron functional theory complex function 110 electoral votes study electronic structure 100 years small number good news semantics physical quantities condensed matter physics hydrogen atom function equal thought correlation potential helium atom nuclear potential wave function applied mathematics From James Overhiser on February 14th, 2019 296 plays
49:32 DFT: Density Functional Theory (Lecture 2.1) DFT: Density Functional Theory (Lecture 2.1)	DFT: Density Functional Theory (Lecture 2.1) 2018 PARADIM SUMMER SCHOOL Lecture 2.1- Density functional Theory renting mechanics independent particles approximate functional 40000 points electronic structure methods energy concepts in physics symbols cognitive science continuum mechanics functional theory clothing caption complete electrostatics differential equation simplest version quantum chemistry lowest energy hydrogen electron density exchange energy quantum mechanics local density approximation discussed yesterday dup kinetic energy exchange potential total energy function theory electromagnetic radiation notation local density 1st time electron blah blah atoms potential semantics fermi level physical quantities density functional theory cognition density thought coalition energy syntactic entities probability theory wave function definite integral From James Overhiser on February 14th, 2019 351 plays
53:41 Kotliar1.mp4 Kotliar1.mp4	Kotliar1.mp4 concepts in physics evolutionary biology scattering idealism semiconductor heat transfer interesting continuum mechanics thermodynamics electromagnetic radiation teaching physical chemistry architectural elements materials science nuclear physics good approximation computing terminology material oxides electron g.w. evolution grammar set theory phases of matter truth meaning (philosophy of language) optics mechanical vibrations numerical analysis statistical mechanics energy principles approximation measurement dynamics hardware (mechanical) particle physics proof theory political philosophy atomic physics research starting point scientific terminology spintronics metalogic theory g.p.l. low temperatures magnetism natural philosophy industry computers science experiments logic statements branches of philosophy electronic structure methods color communication philosophical logic mathematical logic problem solving telecommunications si base units temperature abstract algebra light sources creativity system quantum mechanics start kinematics reproduction in animals molecules real material understand physical sciences thing semantics condensed matter physics applied and interdisciplinary physics theories matter spectroscopy absorption and radiative transfer (optics) piece mechanics resistivity electronics terminology calculation analytical chemistry metals education caption complete design of experiments metrology business terms space telescopes materials scientific method abstraction philosophy structural system quantum field theory physical objects political science covariance and correlation educational psychology reference system f.p.u. broadcasting computer programming principle correlation evaluation methods chemistry embedded systems From James Overhiser on September 12th, 2018 14 plays