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Physics for Electrical Engineering

Module PH9009 [ExPh EI]

This module handbook serves to describe contents, learning outcome, methods and examination type as well as linking to current dates for courses and module examination in the respective sections.

Module version of SS 2022 (current)

There are historic module descriptions of this module. A module description is valid until replaced by a newer one.

Whether the module’s courses are offered during a specific semester is listed in the section Courses, Learning and Teaching Methods and Literature below.

available module versions
SS 2022SS 2021SS 2019WS 2017/8WS 2013/4SS 2011

Basic Information

PH9009 is a semester module in German language at Bachelor’s level which is offered in summer semester.

This Module is included in the following catalogues within the study programs in physics.

• Service Modules for Students of other Disciplines

If not stated otherwise for export to a non-physics program the student workload is given in the following table.

180 h 135 h 6 CP

Responsible coordinator of the module PH9009 is Reinhard Kienberger.

Content, Learning Outcome and Preconditions

Content

1. Introduction

2. Classical Mechanics

• Kinematics
• Newtons Axioms
• Forces, Work, Energy, Conservation of Energy
• Rotation, Angular Momentum, Conservation of Angular Momentum
• special relativity theory

3. Oscillations and Waves

• Harmonic Oscillator (Free, Damped, Driven)
• Travelling and Standing Waves

4. Optics

• Geometric Optics
• Reflection and Refraction
• Wave Optics
• Interference
• Diffraction

5. Thermodynamics

• Kinetic Gas Theory
• Equations of State
• Laws of Thermodynamics
• Thermodynamic Machines

6. Hydrodynamics

• Fluids and Gases
• Pressure, Density and Surface Tension
• Fluid Flow

7. Quantum Mechanics

• Wave-Particle-Duality
• Schrödinger Equation

Learning Outcome

After successful completion of the module the student should:

1. know the general basics regarding methodology and measuring procedures in physics,
2. apply the relevant laws to the motion of point masses,
3. calculate mechanical oscillations,
4. deal with systems of several point masses,
5. calculate the dynamics of rigid bodies,
6. know the mechanical properties of rigid and fluid bodies as well as gases, and estimate their behavior in fluid dynamics, and
7. know the basics of mechanical waves and
8. understand thermodanymical systems and calculate relevant variables in thermodynamical processes.

Preconditions

Basic knowledge on physics and mathematics at the level of Abitur.

Courses, Learning and Teaching Methods and Literature

Courses and Schedule

VO 4 Physics for Electrical Engineering Klappenberger, F. Thu, 09:45–11:15, 1200
Mon, 09:45–11:15, 1200
eLearning
UE 2 Semester Break Course to Physics for Electrical Engineering Klappenberger, F. singular or moved dates
eLearning
current
UE 1 Open tutorial to physics for electrical engineering Klappenberger, F. Thu, 11:30–12:15, 1180
UE 2 Tutorials to Physics for Electrical Engineering
Responsible/Coordination: Klappenberger, F.
dates in groups eLearning
UE 2 Large Tutorial and Mathematical Supplement to Physics for Electrical Engineering
Responsible/Coordination: Klappenberger, F.
Tue, 15:00–16:30, 1200
eLearning

Learning and Teaching Methods

Lecture and large tutorial are held in ex-cathedra teaching, the exercises are given as interactive teaching (calculation of examples). The optional questioning hour e.g. after the lecture is of major support for students for questions on the study topics as well as organisational questions.

In the large tutorial relevant examples for problems are presented.

The tutorial is held in small groups. The students not only learn to reproduce the presented solution of the problems but also train to solve problems independently. For this exercise sheets are offered. The students prepare these problems on their own or in small groups. This helps them to deepen their understanding of the new methods and concepts. In the tutorial the weekly exercises are presented by the students and the tutor. They also provide room for discussions and additional explanations to the lectures.

Media

Animated powerpoint presentation with figures of relevant physical devices and processes. Complicated matter (e.g. deduction of formulas) is written on a tablet PC into the ppt file and projected. Many experiments are shown.

Literature

• Douglas C. Giancoli, Lehr- und Übungsbuch, 3., aktualisierte Auflage, Pearson, ISBN: 978-3-86894-023-7
• Demtröder: Experimentalphysik Band 1&2, Springer Verlag
• Tipler-Mosca: Physik für Wissenschaftler und Ingenieure, Spektrum Akademischer Verlag,

Module Exam

Description of exams and course work

There will be a written exam of 90 minutes duration. Therein the achievement of the competencies given in section learning outcome is tested exemplarily at least to the given cognition level using calculation problems and comprehension questions.

For example an assignment in the exam might be:

• Determine the total moment of force acting on a given construction.
• Determine the point of detachment for a point mass sliding down a sphere.
• Calculate the deflection angle of a perpendicular within an aeroplane due to the Coriolis force.
• Calculate the moment of inertia for an object rotating around a given axis.
• Sketch a p-V-diagram of a thermodynamic cyclic process and calculate the work/energy in each cycle.

Participation in the exercise classes is strongly recommended since the exercises prepare for the problems of the exam and rehearse the specific competencies.

Exam Repetition

The exam may be repeated at the end of the semester.

Current exam dates

Currently TUMonline lists the following exam dates. In addition to the general information above please refer to the current information given during the course.

Title
TimeLocationInfoRegistration
Physics for Electrical Engineering
Tue, 2022-08-09, 13:45 till 15:15 till 2022-02-01 (cancelation of registration till 2022-03-01)
Mon, 2022-10-10, 10:45 till 12:15 till 2022-02-01 (cancelation of registration till 2022-02-28)
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