현대물리학
- 가톨릭대학교
- 마크 앤클리프
페이스북
트위터
카카오톡
네이버밴드
링크복사
-
- 주제분류
- 자연과학 >수학ㆍ물리ㆍ천문ㆍ지리 >물리학
-
- 강의학기
- 2016년 1학기
-
- 조회수
- 8,094
-
- 평점
- 5/5.0 (1)
- 강의계획서
- 강의계획서
This class will introduce some of the main developments in physics over the last hundred years. We will focus mainly on the theory of special relativity, and briefly introduce the fundamental ideas of quantum mechanics, particle physics and general relativity. These theories revolutionized the understanding of physics from the start of the twentieth century, and form the basis for most current physics research.
- 수강안내 및 수강신청
- ※ 수강확인증 발급을 위해서는 수강신청이 필요합니다
Course Introduction
차시별 강의
| 1. | |
Course Introduction | Course Introduction |  |
| 2. | |
SPECIAL RELATIVITY Measuring the speed of light | Learn special relativity and measuring the speed of light | |
|
SPECIAL RELATIVITY Concept of the aether, Galilean transformations Michelson-Morley Experiment, Stellar Aberration | Learn special relativity and concept of the aether, galilean transformations michelson-morley experiment, stellar aberration | |
|
| 3. | |
SPECIAL RELATIVITY The postulates of Special Relativity The Principle of Relativity Incompatibility of Newton's Laws with the postulates of Special Relativity | [Special Relativity] 1. The postulates of Special Relativity 2. The Principle of Relativity 3. Incompatibility of Newton's Laws with the postulates of Special Relativity | |
|
SPECIAL RELATIVITY Length contraction, Time dilation, and Relative simultaneity, The Lorentz Transformation | [Special Relativity] 1. Length contraction 2. Time dilation 3. Relative simultaneity 4. The Lorentz Transformation | |
|
| 4. | |
SPECIAL RELATIVITY The Lorentz transformation and electromagnetism Time dilation of muon decay rates | [Special Relativity] 1. The Lorentz transformation 2. Electromagnetism Time dilation of muon decay rates | |
|
SPECIAL RELATIVITY Space-time diagrams, Train-tunnel paradox, Twin paradox | [Special Relativity] 1. Space-time diagrams 2. Train-tunnel paradox 3. Twin paradox | |
|
| 5. | |
SPECIAL RELATIVITY Twin paradox calculation, The relativistic Doppler effect | [Special Relativity] 1. Twin paradox calculation 2. The relativistic Doppler effect | |
|
SPECIAL RELATIVITY The relativistic Doppler effect (cont.) The Ives-Stilwell experiment, Relativistic transformation of velocities | [Special Relativity] 1. The relativistic Doppler effect (cont.) 2. The Ives-Stilwell experiment 3. Relativistic transformation of velocities | |
|
| 6. | |
SPECIAL RELATIVITY Problems with Newtonian momentum Looking for a modified definition of momentum | [Special Relativity] 1. Problems with Newtonian momentum 2. Looking for a modified definition of momentum | |
|
SPECIAL RELATIVITY Hubble's Law Definition of relativistic momentum, 4-vectors Time-component of momentum, E=mc^2 | [Special Relativity] 1. Hubble's Law Definition of relativistic momentum 2. 4-vectors Time-component of momentum, E=mc^2 | |
|
| 7. | |
SPECIAL RELATIVITY Relativistic momentum (cont.) Zero-mass particles | [Special Relativity] 1. Relativistic momentum (cont.) 2. Zero-mass particles | |
|
SPECIAL RELATIVITY Worksheet questions review | [Special Relativity] Worksheet, Questions and Review | |
|
| 8. | |
GENERAL RELATIVITY Incompatibility of Newtonian Gravity with Special Relativity, Comparison between the theory of Gravity and of Electromagnetism, The Equivalence Principle, Gravitational time dilation | [General Relativity] 1. Incompatibility of Newtonian Gravity with Special Relativity 2. Comparison between the theory of Gravity and of Electromagnetism 3. The Equivalence Principle 4. Gravitational time dilation | |
|
GENERAL RELATIVITY Measurements of space and time in a gravitational field Curvature of space by gravity, quantifying curvature Difference between Bosons and Fermions Spin | [General Relativity] 1. Measurements of space and time in a gravitational field Curvature of space by gravity 2. quantifying curvature Difference between Bosons and Fermions Spin | |
|
| 9. | |
GENERAL RELATIVITY Curvature of space-time, the Einstein Field Equation Motion in curved space-time: geodesics | [General Relativity] 1. Curvature of space-time 2. The Einstein Field Equation Motion in curved space-time: geodesics | |
|
GENERAL RELATIVITY The Metric Tensor The Schwarzschild Metric, Black holes Gravitational waves, sources and detection Cosmology - the large scale structure of the universe | [General Relativity] 1. The Metric Tensor 2. The Schwarzschild Metric 3. Black holes Gravitational waves 4. Sources and detection Cosmology - the large scale structure of the universe | |
|
| 10. | |
QUANTUM MECHANICS Quantization of light: Black-body radiation and the photo-electric effect, Quantization of electron states in atoms: Emission and absorption spectra Wave-particle duality, de-Broglie | [Quantum Mechanics] 1. Quantization of light: Black-body radiation and the photo-electric effect 2. Quantization of electron states in atoms: Emission and absorption spectra Wave-particle duality, de-Broglie | |
| 11. | |
QUANTUM MECHANICS Diffraction of electrons, The two-slit (thought-)experiment, The probability amplitude and the Schroedinger wave equation | [Quantum Mechanics] 1. Diffraction of electrons 2. The two-slit (thought-)experimentEmission 3. The probability amplitude and the Schroedinger wave equation | |
|
QUANTUM MECHANICS The Heisenberg Uncertainty, Principle Measurement in Quantum Mechanics, (in)compatible observables Quantization of Angular Momentum | [Quantum Mechanics] 1. The Heisenberg Uncertainty Principle 2. Principle Measurement in Quantum Mechanics | |
|
| 12. | |
QUANTUM MECHANICS The Stern-Gerlach Experiment Particle Spin | [Quantum Mechanics] The Stern-Gerlach Experiment Particle Spin | |
|
QUANTUM MECHANICS Particle Indistinguishability: Bosons and Fermions, The Pauli Exclusion Principle | [Quantum Mechanics] 1. Particle Indistinguishability: Bosons and Fermions 2. The Pauli Exclusion Principle | |
|
| 13. | |
PARTICLE PHYSICS Particle Properties and Interactions, Strong and Weak Nuclear Forces, Matter and Anti-Matter Baryons, Mesons and the Quark model, The Standard Model of Particle Physics, The Higgs Boson | [Particle Physics] 1. Particle Properties and Interactions 2. Strong and Weak Nuclear Forces 3. Matter and Anti-Matter Baryons 4. Mesons and the Quark model 5. The Standard Model of Particle Physics 6. The Higgs Boson | |
|
PARTICLE PHYSICS Particle interactions: worksheet solutions | [Particle Physics] Particle interactions: worksheet solutions | |
연관 자료
