Study programme 2020-2021 | Français | ||
Electricity and Magnetism | |||
Learning Activity |
Code | Lecturer(s) | Associate Lecturer(s) | Subsitute Lecturer(s) et other(s) | Establishment |
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I-PHYS-021 |
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Language of instruction | Language of assessment | HT(*) | HTPE(*) | HTPS(*) | HR(*) | HD(*) | Term |
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Français | Français | 19 | 21 | 0 | 4 | 0 | Q2 |
Organisational online arrangements for the end of Q3 2020-2021 assessments (Covid-19) |
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Description of the modifications to the Q3 2020-2021 assessment procedures (Covid-19) |
Plan A (default scheme): Face-to-face oral examination on Theory + Practical test Plan B: Remote oral examination (Teams) on Theory and practical works (open-ended questions) Mark allocation: Practical works (mark of lab reports is kept) : 20% Quoted exercices: 30% Oral examination: 50% |
Organisational arrangements for the end of Q2 2020-2021 assessments (Covid-19) online or face-to-face (according to assessment schedule)
Description of the modifications to the Q2 2020-2021 assessment procedures (Covid-19) online or face-to-face (according to assessment schedule)
Plan A (default scheme): Face-to-face oral examination on Theory + Practical test
Plan B: Remote oral examination (Teams) on Theory and practical works (open-ended questions)
Mark allocation:
Practical works (mark of lab reports is kept) : 20%
Quoted exercices: 30%
Oral examination: 50%
Content of Learning Activity
Electrostatics : Quantification; Electrisation; Charge Conservation; Coulomb's law; Influence ; Electric Field ; Gauss Theorem; Potential energy and Electric Potential; Capacitance; Ideal capacitors; Dielectrics; Permittivity; Electric Displacement; Combination of capacitors; Energy stored in a charged capacitor.
- Electrokinetics : Electric current ; Resistance and resistivity ; Voltage ; Energy ; Power ; electromotive force ; Internal resistance; Combination of resistances; Kirchhoff's rules; Millman's, Norton's and Thevenin's Theorems (purely resistive circuits) ; RC circuits, Potentiometre.
- Electrodynamics : Magnetism; Current and magnetic induction; Ampère's law - Biot-Savart law ; magnetic force ; charged particle in B ; dipolar magnetic moment ; Magnetic force between conductors; Torque on a current loop; Galvanometre; DC motor ; Hall effect.
- Electromagnetism : Electromagnetic induction; Faraday's law; Lenz's law ; Motional emf ; Induced emf and electric fields ; Generators ; Eddy currents ; Self-induction and inductance; RL circuits ; magnetic energy ; electromagnetic oscillations ; Alternative currents ; rms values ; AC circuits ; Power in AC circuits; Resonating series RLC circuit ; Transformer ; generalized Maxwell's equations.
- Matter properties : Paramagnetism; Diamagnetism; Ferromagnetism ; Magnetic field H; Magnetization.
Required Learning Resources/Tools
Not applicable
Recommended Learning Resources/Tools
Not applicable
Other Recommended Reading
"Physique", Eugène Hecht, de boeck
"Physique 2. Electricité et magnétisme", Harris Benson, de boeck
"Fundamentals of Physics", David Halliday & Robert Resnick, Jearl Walker
Mode of delivery
Type of Teaching Activity/Activities
Evaluations
The assessment methods of the Learning Activity (AA) are specified in the course description of the corresponding Educational Component (UE)