About this Course

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Learner Career Outcomes

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got a tangible career benefit from this course

25%

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Shareable Certificate

Earn a Certificate upon completion

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Start instantly and learn at your own schedule.

Flexible deadlines

Reset deadlines in accordance to your schedule.

Approx. 17 hours to complete

English

Subtitles: English

Learner Career Outcomes

56%

got a tangible career benefit from this course

25%

got a pay increase or promotion

Shareable Certificate

Earn a Certificate upon completion

100% online

Start instantly and learn at your own schedule.

Flexible deadlines

Reset deadlines in accordance to your schedule.

Approx. 17 hours to complete

English

Subtitles: English

Offered by

University of Geneva logo

University of Geneva

Syllabus - What you will learn from this course

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Week
1

Week 1

2 hours to complete

Matter and forces, measuring and counting

2 hours to complete
13 videos (Total 88 min)
13 videos
1.1 Matter11m
1.2 Forces10m
1.2a Natural units (optional)2m
1.2b Special relativity and four-vectors (optional)7m
1.2c Virtual particles (optional)2m
1.3 Probability and cross section13m
1.3a Attenuation of a photon beam (optional)1m
1.4 Rutherford experiment7m
1.4a Rutherford cross section (optional)3m
1.4b Counting rate Rutherford (optional)2m
1.5 Quantum scattering10m
1.6 Rutherford experiment in practice (optional)13m
6 practice exercises
1.1 Matter10m
1.2 Forces6m
1.3 Probability and cross section8m
1.4 Rutherford experiment8m
1.5 Quantum scattering6m
Graded quiz for Module 110m
Week
2

Week 2

4 hours to complete

Nuclear physics

4 hours to complete
15 videos (Total 142 min), 1 reading, 10 quizzes
15 videos
2.2 Nuclear size and spin9m
2.3 Models of nuclear structure10m
2.3a QCD and nuclear force (optional)2m
2.4 Radioactivity: alpha decay9m
2.4a Energy of alpha particles (optional)1m
2.5 Beta and gamma decay8m
2.5a Exponential decay law (optional)1m
2.6 Radioactivity in practice (optional)8m
2.7 Radiocarbon dating and NMR imaging8m
2.8 Nuclear fission11m
2.9 Nuclear power6m
2.10 Nuclear fusion, the Sun and ITER8m
2.11 The tokamak of EPFL (optional)24m
2.12 The Beznau nuclear power plant (optional)20m
1 reading
2.4 Radioactivity: alpha decay10m
10 practice exercises
2.1 Nuclear mass and binding energy8m
2.2 Nuclear size and spin8m
2.3 Models of nuclear structure6m
2.4 Radioactivity: alpha decay6m
2.5 Beta and gamma decay6m
2.7 Radiocarbon dating and NMR imaging6m
2.8 Nuclear fission6m
2.9 Nuclear power6m
2.10 Nuclear fusion, the Sun and ITER8m
Graded quiz for Module 210m
Week
3

Week 3

3 hours to complete

Accelerators and detectors

3 hours to complete
14 videos (Total 99 min), 3 readings, 10 quizzes
14 videos
3.1a Cyclotron frequency (optional)2m
3.2 Acceleration and focalisation6m
3.2a The CERN accelerator complex (optional)3m
3.3 Components of the LHC (optional)14m
3.4 Heavy particles in matter6m
3.5 Light particles in matter4m
3.6 Photons in matter8m
3.7 Ionisation detectors7m
3.8 Semiconductor detectors7m
3.9 Scintillation and Cherenkov detectors12m
3.10 Spectrometers and calorimeters8m
3.10a Particle detection with ATLAS (optional)3m
3.11 Particle detectors at DPNC (optional)6m
3 readings
3.9 Scintillation and Cherenkov detectors10m
3.10 Spectrometers and calorimeters10m
3.11 Particle detectors at DPNC (optional)10m
10 practice exercises
3.1 Principles of particle acceleration6m
3.2 Acceleration and focalisation8m
3.4 Heavy particles in matter6m
3.5 Light particles in matter6m
3.6 Photons in matter6m
3.7 Ionisation detectors4m
3.8 Semiconductor detectors4m
3.9 Scintillation and Cherenkov detectors8m
3.10 Spectrometers and calorimeters4m
Graded quiz for Module 310m
Week
4

Week 4

2 hours to complete

Electromagnetic interactions

2 hours to complete
7 videos (Total 54 min)
7 videos
4.1a How to construct a Feynman diagram (optional)4m
4.2 Electromagnetic scattering13m
4.3 Spin and magnetic moment6m
4.3a Motion in a Penning Trap2m
4.4 Compton scattering and pair annihilation11m
4.5 Electron-positron annihilation8m
6 practice exercises
4.1 Reminder: Describing particle interactions6m
4.2 Electromagnetic scattering8m
4.3 Spin and magnetic moment6m
4.4 Compton scattering and pair annihilation6m
4.5 Electron-positron annihilation6m
Graded quiz for Module 46m

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