Students will gain an introduction to experimental techniques through experiments on electricity and magnetism, and modern physics. Concurrent...
Antirequisite(s): Prerequisite(s): Permission of the Department. Corequisite(s): Pre-or Corequisite(s): Extra Information: 3 lecture hours, 0.5...
A forum for students to meet the third and fourth year students and faculty in an informal setting. We will discuss research areas, practise giving...
This course provides students with the tools to tackle more complex problems than those covered in introductory mechanics. D'Alembert's principle,...
The Schrodinger equation in one dimension, wave packets, stationary states, the harmonic oscillator, the postulates of Quantum Mechanics, operators...
A study of static electric and magnetic fields using vector calculus; time varying electric and magnetic fields, Maxwell's equations and solutions;...
An introduction to the principles of optics and modern optical devices. Topics include geometrical optics, interference, diffraction, reflection,...
Thermodynamics applied to classical and quantum systems. Thermodynamic laws, interactions, engines, phase transformations of pure substances,...
Composition of biomaterials: chemical bonds, functional groups; water: pH, buffer; DNA: genetic code, amino acids; proteins: primary,
A senior physics laboratory designed to familiarize the student with the basic concepts of modern physics, with emphasis on the development of...
A project-oriented computation course using applications of numerical methods to problems in medical physics, science of materials, atmospheric...
A forum for students to meet the second and fourth year students and faculty in an informal setting. We will discuss research areas, practise giving...
Potential scattering, spin, addition of angular momenta, stationary and time-dependent perturbation theory, systems of identical particles,...
Static fields (Green's functions); time varying fields; Maxwell's equations, conservation laws; nonrelativistic motion of particles in static, uniform...
Phenomenology; conservation laws and invariance principles; analysis of reactions and decays; the identification of particles; the particle spectrum;...
Concepts from electromagnetic theory, quantum mechanics and statistical mechanics will be applied to illuminate the principles and techniques of...
An introduction to the instrumentation and techniques of radiation therapy. Antirequisite(s): Prerequisite(s): Corequisite(s): Physics 3300A/B....
An introduction to the principles governing modern electronic devices. Topics include crystal structure (lattices, reciprocal lattices, X-ray...
Synthesis, properties, characterization and application of materials structured on the nanometer scale. Fabrication methods including epitaxy,...