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# Fundamentals of Experimental Physics I

## Module PH9101

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 WS 2022/3 (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
WS 2022/3WS 2021/2WS 2020/1WS 2019/20WS 2018/9WS 2017/8WS 2015/6WS 2010/1

### Basic Information

PH9101 is a semester module in German language at Bachelor’s level which is offered in winter semester.

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

• Physics Modules for Students of Education

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

120 h 60 h 4 CP

Responsible coordinator of the module PH9101 is Günther Woehlke.

### Content, Learning Outcome and Preconditions

#### Content

Mechanics:

• Introduction, units, error in measurement
• coordinate systems, kinematics
• free fall, motion in 3D, circular motion, superposition of motions, Newton's laws, momentum, inertial and gravitational mass
• pendulum, superposition of forces, frictional force, centripetal force, spring force, gravitational force, reference system, pseudo forces

Hydrostatics and hydrodynamics:

• liquids and gases, pressure, Pascal's principle, compression of liquids and gases
• floatation, surface tension, flowing liquids, continuity equation, Bernoulli equation, Torricelli's law
• real liquids, viscosity, pipe flow of a real liquid, Hagen-Poiseuille

Thermodynamics:

• fundamentals, amount of substance, temperature, thermal energy, ideal gas, velocity distribution, Brownian motion, change of state
• first law of thermodynamics, isotherm, adiabatic curve, isochore
• thermal engines, Carnot cycle, efficiency, Stirling engine, heat generation, heat pump, Otto engine
• reversible and irreversible processes, entropy, second law of thermodynamics, temperature zero-point
• real gases, phase diagrams, phase changes
• heat transport, convection, heat transfer, thermic conduction, heat transmission, heat radiation

#### Learning Outcome

After the successful participation in the module the student is able to:

1. reflect fundamental physical quantities and approaches in classical mechanics
2. apply and solve fundamental equations of practical problems in mechanics
3. describe the fundamentals of hydrostatics and hydrodynamics
4. handle elementary problems quantitatively in mechanics of fluids
5. explain the terms of thermodynamics and the laws of thermodynamics
6. deal with thermodynamic cycles and thermal engines
7. comprehend the properties of real gases and the phenomena of heat transfer

none

### Courses, Learning and Teaching Methods and Literature

#### Courses and Schedule

VO 2 Fundamentals of Experimental Physics 1 Woehlke, G. singular or moved dates
eLearning
UE 2 Exercise to Fundamentals of Experimental Physics 1
Responsible/Coordination: Woehlke, G.
dates in groups

#### Learning and Teaching Methods

In the thematically structured lecture the learning content is presented. With cross references between different topics the universal concepts in physics are shown. In scientific discussions the students are involved to stimulate their analytic-physics intellectual power. In the exercise the learning content is deepened and exercised using problem examples and calculations. Thus the students are able to explain and apply the learned physics knowledge independently.

#### Media

Lecture (on-site) with movies, demonstration experiments, script, exercises/mathematical calculations

#### Literature

The script contains all necessary information. Basics and additional topics:

• Patrick Steglich & Katja Heise: Vorkurs Physik fürs MINT-Studium - Grundlagen und Insider-Tipps für Erstis https://link-springer-com.eaccess.ub.tum.de/book/10.1007/978-3-662-62126-4 (webserver doesn't allow anchored links)
• Christian B. Lang & Norbert Pucker Mathematische Methoden in der Physik https://link-springer-com.eaccess.ub.tum.de/book/10.1007/978-3-662-49313-7 (webserver doesn't allow anchored links)
• Halliday, Resnick, Walker: "Halliday Physik - Bachelor Edition", Wiley-VCH 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.

#### 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
Fundamentals of Experimental Physics I
Mon, 2023-02-27, 11:30 till 13:00 till 2023-01-15 (cancelation of registration till 2023-02-20)
Tue, 2023-04-11, 14:15 till 15:45 till 2023-03-27 (cancelation of registration till 2023-04-04)
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