Einstein's Theory Lecture 2 (September 29, 2008)

science, physics, astrophysics, cosmology, Albert Einstein, dark energy, cosmological constant, vector calculus, dark matter, gravity, mass density, relativity, potential, equivalence principle, Gauss, Isaac Newton, acceleration, reference frame, speed of

Einstein's Theory Lecture 1 (September 22, 2008)

science, physics, gravity, Albert Einstein, relativity, Isaac Newton, Galileo, astrophysics, space, mechanics, gravitational field theory, force, gravitational acceleration, equivalence principle, vector calculus, divergence, Gauss, force Newton's laws of

Cosmology Lecture 8 (March 16, 2009)

quantum physics mechanics, cosmology, math, science, sphere, capital omega, potential energy form, theory, dark matter, vacuum, galaxy, movement, curve flat universe, density, space, constant time, exponential expansion, light year, big bang, stretch, inh

Cosmology Lecture 7 (March 9, 2009)

Science, physics, Albert Einstein, matter-dominated universe, expansion, vacuum energy, Hubble constant, scale factor, horizon, surface of last scattering, Heisenberg uncertainty principle, harmonic oscillator, kinetic energy, ground state energy, zero-po

Cosmology Lecture 6 (March 2, 2009)

science, physics, astrology, sun, photons, electrons, positrons, force, electromagnetism, charge, antiparticle, symmetry, adiabatic expansion, antimatter, photoelectric effect, water,

Cosmology Lecture 5 (February 16, 2009)

science, physics, Big Bang theory, space-time, geometry, inflation, dark matter, dark energy, cosmological constant, expansion theory, galaxy, doppler shift, relativity, alice, bob, frequency, Hubble constant, homogeneity, isotropy, velocity of recession,

Cosmology Lecture 4 (February 2, 2009)

Science, physics, cosmology, cosmic wavelength, photons, Doppler effect, Hubble law, speed of light, light rays, sound waves, expanding space, wave equations, scale factor, surface of last scattering, cosmic horizon, velocity of recession, Doppler shift,

Cosmology Lecture 3 (January 26, 2009)

Science, physics, cosmology, Friedmann-Lemaitre-Robertson-Walker equation, universe expansion, dark matter, photons, scale factor, Newtonian mechanics, galaxy, kinetic energy, potential energy, Hubble constant, Einstein equations, time-time component, cur

Cosmology Lecture 2 (January 19, 2009)

science, physics, Newton, Hubble constant, homogeneous, space-time, metric, force, velocity, galaxy, kinetic energy, potential energy, Big Bang, Big Crunch, isotropy, mass, sphere, escape velocity, cosmology, universe, gravity, curvature, relativity

Cosmology Lecture 1 (January 13, 2009)

science, physics, Big Bang theory, space-time, geometry, inflation, dark matter, dark energy, cosmological constant, expansion theory, galaxy, doppler shift, relativity, alice, bob, frequency, Hubble constant, homogeneity, isotropy, velocity of recession,

Statistical Mechanics Lecture 10 (June 1, 2009)

science, physics, learning, education, heating, inflation, reheating, expansion of the universe, energy, potential, field, dark, nucleation rate, density, adiabatic transformation, thermal equilibrium, black hole, negative temperature, thermal dynamic sys

Statistical Mechanics Lecture 9 (May 25, 2009)

science, physics, mathematics, learning, education, lecture, equation, system, spin, mean field approximation, magnetization, critical point, chemical potential, lagrange mulitplier, correlation function, cosmology

Statistical Mechanics Lecture 8 (May 18, 2009)

science, physics, learning, education, lecture, class of systems, magnetic, magnet, temperature, field, ground state, spontaneous symmetry breaking, magnetization, phase transition, vapor, liquid, gas, phase transition metastability, states of matter, sp

Statistical Mechanics Lecture 7 (May 11, 2009)

science, physics, learning, education, lecture, harmonic oscillator, energy, frequency, partition function, mechanics, quantum states, disc area, annular rings, temperature, black body radiation, wavelength, thermal equilibrium, friction, thermodynamics,

Statistical Mechanics Lecture 6 (May 4, 2009)

classical quantum physics, science, biology, engineering, theory, thermodynamics, math, formula, phase space, statistics, variable, methodology, probability distribution, entropy, second law of thermodynamics, Newton's law of motion, trajectory, inverse,

Statistical Mechanics Lecture 5 (April 27, 2009)

classical quantum physics, science, biology, engineering, theory, thermodynamics, math, formula, space, statistics, variable, methodology, probability distribution, entropy, center of mass, radius, kinetic energy, moment of inertia, position, angle, momen

Statistical Mechanics Lecture 4 (April 20, 2009)

classical quantum physics, science, biology, engineering, theory, thermodynamics, math, formula, space, statistics, variable, methodology, probability distribution, entropy, Helm-Holtz free energy, control parameter, ideal gas, calculate system pressure,

Statistical Mechanics Lecture 3 (April 13, 2009)

classical quantum physics, science, biology, engineering, thermodynamics, math, formula, space, statistics, variable, methodology, probability distribution, entropy, heat bath, fixed system, average energy, state, factorial, N, n, #, maximize, logarithm,

Statistical Mechanics Lecture 2 (April 6, 2009)

classical quantum physics, science, biology, engineering, thermodynamics, math, formula, space, statistics, variable, methodology, probability distribution, entropy, maximize, thermal equilibrium, function, variable, average, minimum value, equation, lamb

Statistical Mechanics Lecture 1 (March 30, 2009)

classical quantum physics, science, biology, engineering, thermodynamics, math, formula, space, statistics, variable, methodology, probability distribution, reality, proof, symmetry, operation, axis, a priori, dynamical system, law of motion, rules, rando