PHY 108 | Ancient Chinese Science
and Technology |
Marone(f16) |
PHY 115 | Descriptive Astronomy | Marone(s17) |
PHY 141 | Introductory Physics I | Balduz(s12) | Sams(f16) | DeSilva(f16) | DeSilva(s17)PRISM | Lee(s17) | Marone(s17) |
PHY 142 | Introductory Physics II | DeSilva(f14) | Balduz(s15) | Lee(s17) |
PHY 161 | General Physics I | Balduz(s16) | DeSilva(f16) | Lee(f16) | Marone(s17) | Pokharel(s17) | Sams(s17) |
PHY 162 | General Physics II | Lee(f13) | Marone(f15) | Pokharel(f16) | Balduz(s17) | DeSilva(s17) |
PHY 198 | Special Introductory
Topics in Physics |
Physics Fundamentals: Balduz(f13) |
PHY 300 | Physics Seminar | Balduz(s02) | Lee(s07) | Marone(s14) | Sams(s17) |
PHY 305 | (Modern Physics I) Early Quantum Theory and Its Applications | Marone(f14) | Balduz(f16) |
PHY 306 | (Modern Physics II) Relativity, Particle Physics and Cosmology | Balduz(s17) |
PHY 320 | Topics in Physics | Complex Networks:
Hollingshad(s14)
Mysteries of DNA: DeSilva(s15) Intro to Scientific Modeling with Mathematica©: Lee(s16) Intro to Quantum Computing: Balduz(s17) |
PHY 330 | Thermal Physics | Balduz(s04) | Lee(f16) |
PHY 335 | Solid State Devices | Lee(s10) |
PHY 340 | Analytical Mechanics | Lee(f13) | Sams(s17) |
PHY 355 | Electromagnetic Theory | Lee(s09) | Balduz(f12) |
PHY 365 | Mathematical Physics | Balduz(s10) |
PHY 370 | Experimental Physics | Marone(f16) |
PHY 385 | Computational Physics | Lee(f10) |
PHY 420 | Advanced Topics in Physics |
Cosmology:
Balduz(s01) Solid State Physics & Devices: Marone(s02) Advanced Quantum Mechanics: Balduz(s04) Quantum Computation: Balduz(f11) Intro to Scientific Modeling with Mathematica©: Lee(f12) The DNA Double Helix: DeSilva(s13) |
PHY 450 | Quantum Mechanics | Balduz(s14) |
PHY 460 | Research in Physics | Marone(s08) | Balduz(f13) | DeSilva(s16) |