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FOLLOW FOUR STEPS (check Grades-BME-CE-GE-MSE-PNGE)
STEP1: SIGN-UP CANVAS: Fill the link https://forms.gle/rDxMAzwtkwLvgjmZ9 to sign up canvas.
Do not write your credentials such as Name and/or Surname. Only Student Identification Number is required.
Provide an E-mail address.
Do confirm the activation e-mail (check the e-mail address you provided) that you received to finalize to sign up canvas.
STEP2: AFTER SIGN-UP CANVAS:Modify/Correct your account if necessary (see picture below: Full Name, Display Name, Sortable Name). Do not use your name/surname, nicknames or email addresses. Change accordingly to the picture below at left.
Full Name as YourID
Display Name as YourID
Sortable Name as YourID (This name appears in sorted list. Be sure that it is in correct form.)
Alternatively; Name[SPACE]YourIDSurname pattern will also be accepted: Ad 123456789Soyad Change accordingly to the picture below at right.
If your Full/Display/Sortable Name pattern(s) is not appropriate, your Canvas account for PHY102_2025-2026_FALL might be deactivated.
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STEP3: LABORATORY EXEMPTION. If your previous laboratory grade is greater than 59, you should make a petition (see picture below) to the instructor.
Download doc (en or tr) file and send it to me via e-mail.
IMPORTANT: There should be a “signature”(any form).
IMPORTANT: There must be an attached “Screenshot from UBYS”. Your name and grade must clearly be seen.
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STEP4: OBJECTIONS. If you want your answers to be re-evaluated, you should make a petition (see picture below) to the instructor. Download doc (en or tr) file and send it to me via e-mail.
IMPORTANT: There should be a “signature”.
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Textbook: 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
IMPORTANT:
CH: Chapter, SP: Sample Problems (Fundamentals of Physics, 9th Edition, D. Halliday, R. Resnick, J. Walker ) |
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(Phy102 Fall2021) GradesI & GradesII Sample Distribution |
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Modified at |
Topic |
Lecture Notes |
Laboratory |
Quiz & Grades |
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September 23, 2021 |
CH21 Electric Charge |
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September 27, 2021 |
CH22 Electric Fields |
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October 05, 2021 |
CH23 Gauss’Law |
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October 11, 2021 |
CH24 Electric Potential |
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October 21, 2021 |
CH25 Capacitance |
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Midterm Examination:
November 04, 2025 08:30-10:00 (H1‐60/H1‐61/H1‐78). 1-CH21
Electric Charge 2-CH22 Electric Fields 3-CH23 Gauss’Law 4-CH24
Electric Potential 5-CH25
Capacitance.
Formulae
sheet is available.
Past
Exam Questions&Solutions are available.
Solutions of Midterm
Examination is available.
Midterm Examination grades is available.
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October 29, 2021 |
CH26 Current and Resistance |
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November 14, 2021 |
Ch27 Circuits |
Laboratory IV November 25, 2025
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November 21, 2021 |
Ch28 Magnetic Fields |
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December 17, 2018 |
Ch29 Magnetic Fields Due to Currents |
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May 16, 2019 |
Ch30 Induction |
Canvas Quiz December 23, 2025 08:45
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Final
Examination: January 14,
2026 14:10-15:40
(H2‐53/H2‐55/H2‐75).
1-CH26
Current and Resistance, 2-Ch27
Circuits, 3-Ch28 Magnetic Fields, 4-Ch29 Magnetic Fields Due to
Currents, 5-Ch30 Inductance (Electromagnetic induction, Faraday’s
Law, Lenz’s Law).
Compiled
grades
are
available.
Resit
Examination:
January
22,
2026
08.30-10:00
(CENG
HZ-70/72 ME: H2-55/70).
Resit Examination
grades are available
and
available.
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Table is tentative. Lectures will be posted. Red color indicates possible modification during the term.
