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Electromagnetic Fields, Forces, and Motion >> Content Detail



Calendar / Schedule



Calendar

The calendar below provides information on the course's lecture (L), recitation (R), and quiz (Q) sessions. The calendar also provides the topics of films and demonstrations shown in class.


SES #TOPICSDEMOSKEY DATES
I. Maxwell's equations and boundary conditions
L1Integral form of Maxwell's equationsProblem set 1 out
R1Gauss' and Ampere's law problems using integral laws

1.4.1 - Magnetic field of a line current

1.6.1 - Voltmeter reading induced by magnetic induction

L2Differential form of Maxwell's equations
R2Gauss' and Ampere's law problems using differential laws
L3Electroquasistatic and magnetoquasistatic fields and boundary conditionsProblem set 2 out
R3Examples of quasistatic systems; short transmission linesProblem set 1 due
L4The scalar electric potential and the Coulomb superposition integral
R4Superposition integral examples
L5Method of images4.7.1 - Charge induced in ground plane by overhead conductorProblem set 3 out
R5Method of images examplesProblem set 2 due
L6Magnetoquasistatics8.2.1 - Fields of a circular cylindrical solenoid
R6MQS problems8.2.2 - Magnetic field of a Helmholtz coil
II. Polarization, conduction, and magnetization
R7Dielectric polarization and capacitance6.6.1 - Artificial dielectricProblem set 3 due
L7Polarization and conduction

7.7.1 - Relaxation of charge on particle in Ohmic conductor

Supplement: Van de Graaff and Kelvin generators

Problem set 4 out
R8Conduction, resistance, and capacitance problems
L8Magnetization9.4.1 - Measurements of B-H characteristicProblem set 5 out
R9Magnetic circuits, inductance, transformers8.6.1 - Surface currents induced in ground plane by overhead conductorProblem set 4 due
L9Magnetic diffusion phenomena10.0.1 - Non uniqueness of voltage in an MQS system
R10Magnetic diffusion, skin effect
III. Boundary value EQS and MQS problems
L10Solutions to Laplace's equation in cartesian coordinates
Review of course to date
Q1Quiz 1
R11Skin effect problems
L11Solutions to Laplace's equation in polar and spherical coordinates
R12EQS boundary value problems in cartesian coordinates7.5.1 - Distribution of unpaired charge
IV. Electromagnetic fields and forces
L12Electroquasistatic forcesProblem set 6 out
R13EQS and MQS boundary value problems in polar geometries7.5.2 - Rotation of an insulating rod in a steady currentProblem set 5 due
L13Magnetoquasistatic forces
R14EQS and MQS boundary value problems in spherical coordinates
L14Fields and moving mediaProblem set 7 out
R15Forces in EQS devicesProblem set 6 due
L15Force densities, stress tensors, and forces
R16

Forces in MQS devices

Film: Synchronous Machines

V. Electromechanical waves
L16Elastic waves on a thin rodProblem set 8 out
R17Moving media problems; Faraday disk (homopolar) machinesProblem set 7 due
L17Transient waves on transmission lines
R18Torque-speed machine problems
L18

Waves and instabilities in elastic media

Film: Complex Waves I

DC, AC, and electromechanically self-excited commutator machinesProblem set 9 out
R19EQS forces, force densities, and stress tensorsProblem set 8 due
R20Applications of the EQS Maxwell stress tensor
R21Review for quiz 2
Q2Quiz 2
R22EQS Maxwell stress tensor problems
L19

Waves and instabilities in the presence of motion

Film: Complex Waves II

R23Applications of the MQS stress tensor
L20Electromechanics of elastic wavesProblem set 10 out
R24Longitudinal waves in thin rodsProblem set 9 due
L21Reflections from boundaries
R25Longitudinal elastic wave problems
L22Transverse waves in wires and membranesProblem set 11 out
R26Analysis of ω-k dispersion and instabilitiesProblem set 10 due
L23Instabilities of transverse waves in wires and membranes
R27Electromechanical waves and instabilities in moving media
L24Electromechanical wave and instability problems
R28Electromechanical wave and instability problems (cont.)Problem set 11 due
Course review
Q3Final exam

 








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