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FOLLOW FOUR STEPS
STEP1: SIGN-UP CANVAS: Fill the link https://goo.gl/forms/du1EK40FlGU5AJ0i1 to sign up canvas. IMPORTANT: Name 123456789Surname
STEP2: AFTER SIGN-UP CANVAS:Modify/Correct your account Full Name as Name 123456789Surname (see picture below). If your Full Name pattern is not appropriate, your Canvas account for PHY102_SPRING2019 might be deactivated.
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STEP3: LABORATORY EXEMPTION. If your previous laboratory grade is greater than 59, you should make a petition (with your hand writing, see picture below) to the instructor.
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STEP4: OBJECTIONS. If you want your answers to be re-evaluated, you should make a petition (with your hand writing, see picture below) to the instructor.
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Text: Fundamentals of Physics, 9th Edition, D. Halliday, R. Resnick, J. Walker.
We will cover chapters 21-30.
Ch. 21: Electric charge, conductors and insulators, Coulomb’s Law, quantization and conservation principles for charge
Ch. 22: Electric fields, field maps, fields due to various charge geometries, point charges and dipoles in an electric field
Ch. 23: Electric flux, Gauss’s Law for electric fields, Coulomb’s Law from Gauss’s Law, isolated charged conductors, considerations of symmetry
Ch. 24: Electric potential energy and work, electric potential, equipotentials, potentials due to discrete and continuous charge distributions, isolated conductors, determining the electric field from the potential
Ch. 25: Capacitors and capacitance, series and parallel arrangements, stored energy, dielectric materials, Gauss’s Law with dielectric
Ch. 26: Electric current, current density, non-perfect conductors, resistivity and resistance, Ohm’s Law, power and energy in electric circuits, semiconductor materials, superconductors
Ch. 27: DC circuits, energy and work, electromotive force, single and multi-loop circuits, parallel and series combinations of resistances, Kirchoff’s Laws, RC circuits, time constant
Ch. 28: Magnetic fields, forces on moving charges, crossed fields, Hall effect, cyclotrons, force and torque on current carrying wires and loops, magnetic dipoles and dipole moment
Ch. 29: Sources of magnetic field, Biot-Savart Law, calculating the magnetic field for various current geometries, Ampere’s Law, consideration of symmetry, forces between parallel currents, solenoids and toroids, a coil as a dipole
Ch.
30: Electromagnetic induction, Faraday’s Law, Lenz’s Law, induced
electric fields, induction and inductors, RL circuits and
time constants, energy stored in magnetic fields, energy density in
magnetic fields, mutual inductance
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CH: Chapter, SP: Sample Problems (Fundamentals of Physics, 9th Edition, D. Halliday, R. Resnick, J. Walker ) |
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Lecture Notes |
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CH23 Gauss’Law |
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CH24 Electric Potential |
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CH25
Capacitance |
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Midterm Examination:
April 06, 2019 10:30-12:30.
1-Electric
force/fields for point charges/Charged particles in electric field
2-Electric
force/fields for continuous charge distributions 3-Electric
Flux 4-
Gauss’s
Law
5-Electric
potential/energy for point charges
6-Electric
potential for continuous charge distributions
7-Capacitance,
series and parallel connections
8-Effects
of dielectrics in capacitance. |
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CH26
Current and Resistance |
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Ch27 Circuits |
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Ch28 Magnetic Fields |
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Ch29 Magnetic Fields Due to
Currents |
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Ch30 Inductance |
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Final Examination: May 21, 2019 10:30-12:30 (A208 BME). Compiled grades are available. Solutions of Final Examination is available. Final Examination grades is available. Resit Examination: June 10, 2019 13:30-15:30 (A206, B106 BME). 1-DC Circuits 2-RC Circuits 3-Motion of charged particle in a magnetic field 4-Finding magnetic force of current carrying wire/torque on a current loop using magnetic dipole moment 5-Application of Biot-Savart Law to calculate magnetic fields from current sources of different shapes 6-Application of Ampere’s law 7-Application of Faraday's law/ motional EMF 8-Lenz’s law Resit
Examination grades is available. |
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