Course Manual PH2
Physics 2
PDF Course Catalog Deutsche Version: PH2
Version: 1 | Last Change: 15.09.2019 21:04 | Draft: 0 | Status: vom verantwortlichen Dozent freigegeben
| Long name | Physics 2 |
|---|---|
| Approving CModule | PH2_BaET |
| Responsible |
Prof. Dr. Christof Humpert
Professor Fakultät IME |
| Valid from | winter semester 2021/22 |
| Level | Bachelor |
| Semester in the year | winter semester |
| Duration | Semester |
| Hours in self-study | 60 |
| ECTS | 5 |
| Professors |
Prof. Dr. Christof Humpert
Professor Fakultät IME |
| Requirements | Functions (sin, cos, exp, ln) Equations and systems of equations (linear, quadratic) Analysis (differential and integral calculus) Linear algebra (2-/3-dim vector calculation) Differential equations Complex numbers Basic physical terms Kinematics, dynamics Forces, Newton's axioms Work, energy, energy conservation Momentum, momentum conservation Torque, angular momentum |
| Language | German |
| Separate final exam | Yes |
Literature
| Tippler, Mosca; Physik (Springer Spektrum) |
| Giancoli; Physik Lehr- und Übungsbuch (Pearson) |
| Halliday, Resnick, Walker; Halliday Physik (Wiley-VCH) |
Final exam
| Details |
Written examination, oral examination only in individual cases, with the following elements: - Multiple choice and assignment questions to query fundamental concepts, relationships and analogies - Free-text answers to query further knowledge and the basic understanding of physical relationships - Preparation of sketches to test further understanding - Application-oriented text tasks, whose solutions make it necessary to analyze and reduce the physical problems, select a suitable model and apply it mathematically. |
|---|---|
| Minimum standard | 50 % of the questions and tasks correctly solved |
| Exam Type | EN Klausur |
Learning goals
| Goal type | Description |
|---|---|
| Knowledge | Mechanics - Oscillations of mass-spring systems (free/forced, undamped/damped) - Resonance behavior, quality factor, resonance curve - Analogy of mechanical and electrical oscillation systems - Superposition of oscillations (beat) - Waves, wave propagation (longitudinal, transversal) - Superposition of waves (interference), standing waves - Mechanics of fluids and gases (Bernoulli) Optics - Huygens Fresnel Principle - Reflection, total reflection, refraction, diffraction - Doppler effect (classic) - Geometric optics Thermodynamics - Kinetic gas theory, ideal gases - thermal expansion, absolute temperature - Fundamentall laws of thermodynamics - Thermodynamic processes (isothermal, isobaric, isochoric, adiabatic) |
| Skills | Recognize and apply analogies, e.g. mechanical / electrical oscillations Derive and apply equations of motion from balances of forces or energies Describe and explain wave propagation processes Derive superposition of harmonic waves and calculate standing waves Apply Bernoulli equation and determine state variables of the fluid Derive thermomechanical state variables (pressure, volume, temperature) from the fundamental laws Analyze physical problems, apply physical models and calculate with them |
Expenditure classroom teaching
| Type | Attendance (h/Wk.) |
|---|---|
| Lecture | 2 |
| Exercises (whole course) | 2 |
| Exercises (shared course) | 0 |
| Tutorial (voluntary) | 0 |
Special requirements
| none |
| Accompanying material |
Presentation slides for the lecture Collection of exercise tasks with solutions Questionnaire to prepare the exam Links to Internet resources with basic information |
|---|---|
| Separate exam | No |
Learning goals
| Goal type | Description |
|---|---|
| Knowledge | Error analysis - Systematic and random measurement deviations - Absolute and relative measurement deviations - Graphical determination of the measurement deviations - Calculated determination of the measurement deviations - Error statistics (distribution, mean, standard deviation) - Error propagation Demonstration experiment - Mathematical pendulum Lab exercises - Fall acceleration - Spring constant, spring pendulum - Damped torsional oscillation Online lab exercises - Forced torsional oscillation |
| Skills | Analyze, modify and verify experimental setup Record measurement data and create a simple log Perform an error calculation and evaluate the measurement deviation Evaluate, assess and compare measured data with expectation or known values Create a structured report |
Expenditure classroom teaching
| Type | Attendance (h/Wk.) |
|---|---|
| Practical training | 1 |
| Tutorial (voluntary) | 0 |
Special requirements
| none |
| Accompanying material |
Documents to introduce the lab excerices incl. script for error calculation Background information and task description of lab excerices Questionnaire to prepare the lab excerices |
|---|---|
| Separate exam | Yes |
Separate exam
| Exam Type | EN Projektaufgabe im Team bearbeiten (z.B. im Praktikum) |
|---|---|
| Details | Online entrance test to control student preparation Evaluation of the test report |
| Minimum standard | 70% of online tests correct 80% of the measurement results correct 80% of the evaluation performed correctly Discussion of evaluation available |
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