Physics 2 for Students of Physics

203-1-2371

Course information

Credit points
5.00
Lecture hours
4.00
TA hours
2.00
Lab hours
0.00
University's course list
2024 / 3 2024 / 2 2023 / 2 2022 / 2 2021 / 2 2020 / 2

Summary

Vector analysis.
electric field (including Coulomb law, Gauss law, and first Maxwell equation).
Electric potential (including Laplace and Poisson equations, electric dipole).
Conductors (including capacity and capacitors).
Electric current (including Ohm's law, direct current circuits, RC circuit).
Magnetic field I (including special relativity connections, Lorenz force, Ampere force, magnetic moment).
Magnetic field II (including vector potential, Bio-Savard's law, Ampere's law, absence of magnetic charge, second Maxwell equation, truncated third Maxwell equation, gauge, field of magnetic moment, solenoids).
Electromagnetic induction (including fourth Maxwell equation, Lenz law, inductance, AC current circuits).
Maxwell equations and electromagnetic waves.
(Optional) Electric and magnetic properties of materials

Syllabus

  • Vector analysis.
  • electric field (including Coulomb law, Gauss law, and first Maxwell equation).
  • Electric potential (including Laplace and Poisson equations, electric dipole).
  • Conductors (including capacity and capacitors).
  • Electric current (including Ohm's law, direct current circuits, RC circuit).
  • Magnetic field I (including special relativity connections, Lorenz force, Ampere force, magnetic moment).
  • Magnetic field II (including vector potential, Bio-Savard's law, Ampere's law, absence of magnetic charge, second Maxwell equation, truncated third Maxwell equation, gauge, field of magnetic moment, solenoids).
  • Electromagnetic induction (including fourth Maxwell equation, Lenz law, inductance, AC current circuits).
  • Maxwell equations and electromagnetic waves.
  • (Optional) Electric and magnetic properties of materials

 

Bibliography

Electricity and magnetism, by E.M. Purcell, Berkeley physics course. New York : McGraw-Hill, 1965-71.
Physics, by M. Alonso, E. J. Finn, Addison Wesley (May 31, 1992).

פיסיקה 2 - לתלמידי פיסיקה

203-1-2371

נתוני קורס

נקודות זכות
5.00
שעות הרצאה
4.00
שעות תרגול
2.00
שעות מעבדה
0.00
לקובץ הקורסים
2024 / 3 2024 / 2 2023 / 2 2022 / 2 2021 / 2 2020 / 2

תקציר

אלקטרוסטטיקה - מטענים חשמליים ושדות חשמליים; פוטנציאל חשמלי; שדות חשמליים ליד מוליכים; זרמים חשמליים; שדות של מטענים בתנועה ותורת היחסות הפרטית; השדה המגנטי; השראות מגנטיות; מעגלי זרם משתנה; משוואות מכסוול וגלים אלקטרומגנטיים; שדות חשמליים ומגנטיים בחומר;

סילבוס

  • Vector analysis.
  • electric field (including Coulomb law, Gauss law, and first Maxwell equation).
  • Electric potential (including Laplace and Poisson equations, electric dipole).
  • Conductors (including capacity and capacitors).
  • Electric current (including Ohm's law, direct current circuits, RC circuit).
  • Magnetic field I (including special relativity connections, Lorenz force, Ampere force, magnetic moment).
  • Magnetic field II (including vector potential, Bio-Savard's law, Ampere's law, absence of magnetic charge, second Maxwell equation, truncated third Maxwell equation, gauge, field of magnetic moment, solenoids).
  • Electromagnetic induction (including fourth Maxwell equation, Lenz law, inductance, AC current circuits).
  • Maxwell equations and electromagnetic waves.
  • (Optional) Electric and magnetic properties of materials

 

ביבליוגרפיה

Electricity and magnetism, by E.M. Purcell, Berkeley physics course. New York : McGraw-Hill, 1965-71.
Physics, by M. Alonso, E. J. Finn, Addison Wesley (May 31, 1992).
Last changed on April 25, 2022 by Bar Lev, Yevgeny (ybarlev)