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

The Basic Concepts Lecture 10 (December 14, 2009)

science, physics, particle physics, quantum field theory, particle interactions, lagrangian, wave, momentum, energy, phase velocity, wave, quantum mechanics, velocity, momentum, relativity, quantum, mechanical, wave, particle movement, initial state, elec

The Basic Concepts Lecture 9 (December 3, 2009)

classical quantum mechanics, physics, science, biology, engineering, abstract math, formula, particle, Lagrangian, space, time, derivative, scalar boson field, motion, cross-section, collision, energy, mass, non-linear equation, wave, dirac equation, elec

The Basic Concepts Lecture 8 (November 16, 2009)

classical quantum physics, science, biology, engineering, abstract math, formula, particle, spin, Dirac equation, isotopic spin, cyclic permutation, matrix, vector, commutation relations, Pauli spin matrices, probability, energy, frequency, boson, fermion

The Basic Concepts Lecture 7 (November 13, 2009)

classical quantum physics, science, biology, engineering, abstract math, formula, angular momentum, elementary particles, spin, rotation, kinetic energy, propulsion, atom, vector, velocity, speed, direction, moment of inertia, particle, crossproduct, simu

The Basic Concepts Lecture 6 (November 9, 2009)

science, physics, particle physics, simple quantum field, vectors, field theory, particle, wave, momentum, energy, phase velocity, wave, quantum mechanics, velocity, momentum, fermions, Fermi-Dirac statistics, Dirac equation, relativity, quantum, mechanic

The Basic Concepts Lecture 5 (November 2, 2009)

science, physics, particle physics, simple quantum field, vectors, field theory, particle, wave, momentum, energy, phase velocity, wave, quantum mechanics, velocity, oscillation, Schrodinger, momentum, fermions, Fermi-Dirac statistics, harmonic oscillat

The Basic Concepts Lecture 4 (October 26, 2009)

science, physics, particle physics, simple quantum field, vectors, field theory, particle, wave, momentum, occupation number, harmonic oscillation, position, reaction, annihilation, wave function, probability, atom, decay, photon, creation, energy, bra-ke

The Basic Concepts Lecture 3 (October 19, 2009)

science, physics, quantum mechanics, field theory, particle, wave, momentum, occupation number, harmonic oscillation, position, reaction, annihilation, wave function, probability, atom, decay, photon, creation, energy

The Basic Concepts Lecture 2 (October 12, 2009)

science, physics, theoretical, particle, nature, matter, quantum field theory, light wave, Planck's constant, energy, photon, quanta, electromagnetic wave, momentum, frequency, magnitude, schrodinger equation, oscillation, level, Newton

The Basic Concepts Lecture 1 (October 5, 2009)

science, physics, particle, quantum field theory, molecule, Planck's constant, mass, atom, electron, gamma, light, photon, quanta, electromagnetic wave, field, electric, magnetic, momentum, frequency, magnitude, Newton, Einstein

Supporting Excellent Teaching of English Learners: Panel Discussion

education, learning, teach, school, english, learn, cset, classroom, teacher, language, skill, think, problem, solution, research, curriculum, modality, active, collaboration, horizontal, development, social issue, immigrant, opportunity, change, effectiv

Cavitation on Ship Propellers

Summary:
Cavitation is the transition of a fluid into vapour due to local reduction of pressure which is generated by high local flow velocities. The transition of a fluid into vapour also occurs during cooking of water by an increase of the local temperature. The term cavitation is generally reserved for conditions in which the temperature of the bulk fluid is not changed.
Although cavitation can occur in many situations this course focuses on ship hydrodynamics and ship propellers. The course