PHY121 Physik II für Haupt- und Nebenfach Physik, PHY120 Vertiefung II
Seiteninhalt
Schedule
| Lecturer : | |
| Organization | Dr. Knut Morå |
| Lectures ( PHY121 ): | Thur, Fri 08:00-09:45, HS15 (16-G-15) |
| Lectures ( PHY120 ): | Wed 08:00-09:45 HS05 (16-G-05) |
| Exercise sessions: | Thu 13:00-15:00 |
Outline of course
Physik II is a continuation of Physik I and covers topics in thermodynamics, statistical
physics electricity and magnetism: charge, Coulomb’s law, electric fields, Gauss’ law, electric
potential, capacitors and dielectrics, current and resistance, EMF and circuits, magnetic fields,
Biot-Savart law, Amperes law, Faraday’s Law of Induction, and simple AC circuits, geometric
optics, reflection, refraction, interference.
Course information sheet
Weekly exercises
Exercises will be posted on OLAT here. Please register and log in immediately to see if you can access the course, If not, check that your UZH email is registered properly. If it is, and you still lack access, contact Dr. Knut Morå
Exercises will be assigned every Wednesday, and will be due the following Wednesday at 18:00. Your teacher assistant (TA) will let you know where to submit your exercises.
The first exercise sheet will be assigned on Wednesday the 26th of February, and should be submitted to the TA before or in the exercise session Thursday the 6th. The solutions will be published on OLAT the day after the exercise session.
Evaluation, Grades and Attendance
Your grade is based on a weighted average on:
- 70% final examination
- 30% on the weekly exercises
Attendance is expected and recorded for exercise sessions. The homework is graded somewhat differently than previous courses: you mark exercises you have made a good-faith effort in and are willing to present on the blackboard, and receive points for those that are summed for this portion of the grade. The goal of this change is that your evaluation is not dependent on a single input, the final exam. We may adjust the weighting to more accurately reflect student’s performance, including awarding points for performance.
We will be allowing up to three absences for any reason such as illness, conflicting exams,
unavoidable personal conflicts, etc. No need to email us. Whenever absent you will need to
submit your exercise sheet before by Thu noon via OLAT.
The final examination will be composed of questions similar to those presented in the lectures and the weekly exercises.
Exam schedule
The exam is scheduled for
Wednesday, June 25th, 2025
14:00-16:00
Hörsaal 30
Exam guidelines :
Exams will be similar in style to the weekly exercises (conceptual questions). A formula sheet with all needed equations will be provided to you in the exams. The formula sheet will be sent to you at least a week before the exam to help you study. We will provide you with paper and a calculator if needed. The final exam will be printed in english and in german.
The following are forbidden in exams :
- Any means of communication (mobile phones, smart watches, etc.)
- Any kind of calculator, laptop, or electronic storage device
- Any additional formula sheets or written notes.
Lecture information
|
|
Date | Content | Exercise Set due | |
|
1
|
1 |
Thu, 20.02.2025
|
Temperature, Temp Scales Specific Heat, Kinetic Theory | |
| 2 | Thermal Expansion, phase Changes, Latent Heat, 0th law | |||
| 3 |
Fri, 21.02.2025
|
Heat transfer mechanisms, insulation, vaccuum, radiation | ||
| 4 | Wien's Law, Stefa-Boltzmann-Law, Black Body, IR catastrophe, | |||
|
2
|
5 |
Thu, 27.02.2025
|
Statistical Mechanics, Diffusiong Maxwell Boltzmann, Van Der Waals, Critial Points and Vapour pressures |
|
| 6 | Thermodynamics system, classification | |||
| 7 |
Fri, 28.02.2025
|
First Law, internal energy | ||
| 8 | Adiabatic processes, 2nd law | |||
|
3
|
9 |
Thu, 06.03.2025
|
Reversible vs irreversibel systems |
1
|
| 10 | Heat engines | |||
| 11 |
Fri, 07.03.2025
|
Applying 2nd law, Carnot cycle | ||
| 12 | Entropy, Miscroscopic picture Direction of time | |||
|
4
|
13 |
Thu, 13.03.2025
|
Engines of different types |
2
|
| 14 | Charge, Atoms, Conductors and Insulations | |||
| 15 |
Fri, 14.03.2025
|
Coulomb's Law, Multipoles and Electric Fields, Millikan Experiment | ||
| 16 | Continuous Charge Distributions, Field above Ring and around wire | |||
|
5
|
17 |
Thu, 20.03.2025
|
Gauss's Law |
3
|
| 18 | Gauss law applied to point charge, sphere, rod etc | |||
| 19 |
Fri, 21.03.2025
|
Electric Potental Energy, Review of potential energy | ||
| 20 | Potential energy of different system | |||
|
6
|
21 |
Thu, 27.03.2025
|
Charge disitribution in conductors, Farradays Cage |
4
|
| 22 | Capacitance, Type of capacitors, applications | |||
| 23 |
Fri, 28.03.2025
|
Dielectrics, polarization, displacement | ||
| 24 | Capacitors, stored energy, combining them | |||
|
7
|
25 |
Thu, 03.04.2025
|
Electric Current, drift velocity, resistance, energy loss, power sources |
5
|
| 26 | Kirchoff's Rule with different examples | |||
| 27 |
Fri, 04.04.2025
|
Capacitors in Circuits (RC Circuits) | ||
| 28 | Application: Geiger counters, tubuluar resistors | |||
|
8
|
29 |
Thu, 10.04.2025
|
Magnetism and Magnetic Materials, Earth Magnetic Field |
6
|
| 30 | Biot-Savart, single moving charge, current | |||
| 31 |
Fri, 11.04.2025
|
Ampere's Law, Magnetic field cyliner, loop, solenoid | ||
| 32 | Permeability, Force between wires | |||
|
9
|
33 |
Thu, 17.04.2025
|
Motional EMF |
7
|
| 34 | Faraday's Law | |||
| 35 |
Fri, 02.05.2025
|
Leny's Law, Moving conductor in B field, Eddy currents | ||
| 36 | Induction, Generators | |||
|
10
|
37 |
Thu, 08.05.2025
|
Inductors in Circuits (RL Circuits), energy in magnetic field |
8
|
| 38 | LC/RLC Circuits | |||
| 39 |
Fri, 09.05.2025
|
Magneritzation, Types of Magnetism, Earth Magnetic Field | ||
| 40 | Displacement Current, Maxwell's Law | |||
|
11
|
41 |
Thu, 15.05.2025
|
Electromagnetic Waves |
9
|
| 42 | Applications of EM Waves, connection to relativity, speed of light | |||
| 43 |
Fri, 16.05.2025
|
Michelson-Morley-Experiment & Relativity; Blackbody part II & Quantum | ||
| 44 | Polarization | |||
|
12
|
45 |
Thu, 22.05.2025
|
Electromagnetic waves and optics, Huygens Principle, Corpuscular Theory? |
10
|
| 46 | Wave superposition, refraction, reflection, dispersion & prism | |||
| 47 |
Fri, 23.05.2025
|
Scattering, Polarization | ||
| 48 | Interference, Diffraction | |||
|
13
|
49 |
Fri, 30.05.2025
|
Summary |
11
|
| 50 | ||||
References & texts
The following texts can be used as reference.
- Paul A. Tipler, Gene Mosca: Physics for scientists and engineers.
- Wolfgang Demtröder: Experimentalphysik 1 und 2 (goes into more depth)
Further recommended literature
- Halliday & Resnick : Fundamentals of Physics.
- "Engfer Skriptum" in german Teil 1 (Mechanik, Hydromechanik) (PDF, 1 MB), Teil2 (Thermodynamik) (PDF, 845 KB), Teil 3 (Elektrodynamik) (PDF, 1 MB) These were used in earlier years.
Additional resources to help with mathematics.
- MHP: Mathematische Hilfsmittel (PDF, 587 KB) (in german) derivatives, integrals, series expansions, statistics, vector algebra, coordinate transformations, tensors, ... )
- C.B. Lang und N. Pucker: Mathematische Methoden der Physik, Spektrum Verlag, Heidelberg und Berlin.
Formelsammlung Mittelschulphysik (PDF, 396 KB) is also useful for usage of basic formulas.