DEGREE: Bachelor's Degree in Industrial Electronics and Automation COURSE: 1º TERM: 2º WEEKLY PLANNING



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SESSION WEEK COURSE: Physics II DEGREE: Bachelor's Degree in Industrial Electronics and Automation COURSE: 1º TERM: 2º WEEKLY PLANNING DESCRIPTION GROUPS (mark ) Indicate YES/NO If the session needs 2 teachers WEEKLY PROGRAMMING FOR STUDENT 1. Coulomb's Law. The Electric Field 1 1 Electric charge Coulomb's Law. Dimensions and Units. The Superposition Principle. Definition of the Electric Field 1 2 The Electric Field Created by a Point Charge The Superposition Principle. The Electric Field Lines 2 Gauss's Law Charge Distributions and Charge Densities. The 2 3 Electric Field Created by Various Charge Distributions The Electric Flux 2 4 Gauss's Law on the search of bibliography the discussions. Expose the suggested works. on the search of bibliography the discussions. Expose the suggested works. Página 1 de 5

Application of Gauss's Law to Calculate Electric Fields 3 The Electric Potential Work Done in Moving a Charge in an Electric Field 3 5 Potential Difference and Electric Potential Electric Potential Created by Various Charge Distributions Relation between Electric Field and Electric Potential. 3 Equipotential Surfaces Electrostatic Energy of a Point Charge 4 Conductors 4 7 Microscopic perspective on conductors: Conductors and Insulators Conductors in Electrostatic Equilibrium Charge Distribution in Conductors: Electric Field and Electric Potential. 4 8 Electric Fields Inside of Charged Conductors: The Faraday s Cage. Corona Discharges on the search of bibliography the discussions. Expose the suggested works. on the search of bibliography the discussions. Expose the suggested works. Página 2 de 5

5 Dielectrics: Capacitance and Energy Storage 5 9 Microscopic perspective on dielectrics: induced dipoles. Polarization and bound charges. The electric displacement: linear dielectrics. Definition of Capacitance: calculating capacitance 5 10 and RC circuits. Capacitors with Dielectrics. Dielectric Constant Combination of Capacitors Energy Stored in a Charged Capacitor Electric Current 11 The Electric Current: Intensity and Current Density. Ohm's Law. Electric Resistance and Electric Conductivity Joule s Law. Power Dissipated in an Electric 12 Conductor Electromotive Force (emf) 7 Magnetic Forces and Magnetic Fields Definition of Magnetic Field. Lorentz s Force 7 13 Charged Particle Movement in a Magnetic Field Magnetic Force Acting on a Current-Carrying Conductor 7 14 Torque on Current Loops, Permanent Magnets. Magnetic Moment Página 3 de 5

8 15 8 Sources of Magnetic Field Sources of the Magnetic Field: Electric Currents. Biot-Savart Law Forces Between Current-Carrying Conductors Magnetic Flux Ampère s Law. Application of Ampère s Law to 8 1 Calculate Magnetic Fields 9 17 9 Magnetic Fields in Matter. Magnetism from a microscopic perspective. Magnetization: Magnetic Dipoles. The auxiliary Field H: Ampère's law in Magnetized Materials. Paramagnetism, Diamagnetism and Ferromagnetism. 9 18 Magnetic Susceptibility and Permeability 10 19 10 Faraday's Law Faraday's Law of Induction. Lenz s Law. Applications Motional Electromotive Force Examples of Electromagnetic Induction 10 20 Mutual Induction and Self-Induction Magnetic Energy 11. Introduction to electromagnetism. Maxwell's 11 21 Equations Introduction to Maxwell s equations. Static and time dependent. 11 22 12 23 12. Oscillations. Maxwell's Equations(2) Electromagnetic Waves: Introduction to the oscillatory movement Mathematical description of the oscillatory systems: AC sources LC and LCR circuits and Resonance. Impedance. Damping. Resonance and Natural Fecuency Introduction to travelling Waves and Standing 12 24 Waves: Mathematical Description. Mechanical waves, Sound and Electromagnetic Waves scription of a wave. Wave Página 4 de 5

13 25? 2 Velocity: phase velocity and group velocity Maxwell's Equations.Electromagnetic Waves. Energy Flux Density of an Electromagnetic Wave. Revision and integration of the main concepts. practice 1? 27 practice 2? 28 practice 3 on the concepts shown in course lectures. It work. Elaborate a report. work. Elaborate a report. work. Elaborate a report. work. Elaborate a report. 4 3 3 3? 29 practice 4 3 SUBTOTAL 48,33 + 94 = 13,33 Tutorials, handing in, etc Tutorials, handing in, etc 0 Assessment 0 12 TOTAL 150 Página 5 de 5

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