700.153 (23W) Physics for Engineers: Kinematics, Dynamics and Thermodynamics
Overview
- Lecturer
- Course title german Physics for Engineers: Kinematics, Dynamics and Thermodynamics
- Type Course (continuous assessment course )
- Course model Attendance-based course
- Hours per Week 2.0
- ECTS credits 2.0
- Registrations 25 (30 max.)
- Organisational unit
- Language of instruction Englisch
- Course begins on 06.10.2023
- eLearning Go to Moodle course
Time and place
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Course Information
Intended learning outcomes
Students should be able to explain the basic laws and concepts of mechanics (rigid and elastic bodies) and thermodynamics, and apply the laws using concrete examples.
Teaching methodology
- solved exercises in class
- homeworks
Course content
Mechanics of rigid bodies
- Kinematics
- Newton's axioms
- mech. work, energy
- friction, inertia, gravitational forces
- Torque
- angular momentum
- equilibrium of forces and motion
Mechanics of elastic bodies
- Mechanical deformation, distortion
- Mechanical stress
- Fluids and gases
- Flows
Thermodynamics
- Heat energy and temperature
- Temperature scales
- Thermal expansion
- Equation of state of ideal gases
- Heat capacity and spec. heat
- Heat transfer
- First law of thermodynamics
- pV diagram, isochoric and isobaric change of state
- Adiabatic change of state
- Entropy
- Second law of heat transfer
- Heat engines and Carnot efficiency
- Refrigerating machines
Literature
Douglas C.Giancoli:Physics
Halliday, Resnick, Walker: Physics
Wolfgang Demtröder: Experimental Physics I
Paul A. Tipler: Physics
Hering, Martin, Stohrer: Physics for Engineers
Examination information
Im Fall von online durchgeführten Prüfungen sind die Standards zu beachten, die die technischen Geräte der Studierenden erfüllen müssen, um an diesen Prüfungen teilnehmen zu können.
Examination methodology
Written Exam
Homeworks
Examination topic(s)
Mechanics of rigid and elastic bodies
Thermodynamics
Assessment criteria / Standards of assessment for examinations
Exam Standard
Grading scheme
Grade / Grade grading schemePosition in the curriculum
- Bachelor's degree programme Information and Communications Engineering
(SKZ: 289, Version: 22W.1)
-
Subject: Elektrotechnik und Physik
(Compulsory subject)
-
3.2 Grundlagen der Physik: Kinematik, Dynamik und Thermodynamik (
0.0h KS / 2.0 ECTS)
- 700.153 Physics for Engineers: Kinematics, Dynamics and Thermodynamics (2.0h KS / 2.0 ECTS) Absolvierung im 2. Semester empfohlen
-
3.2 Grundlagen der Physik: Kinematik, Dynamik und Thermodynamik (
0.0h KS / 2.0 ECTS)
-
Subject: Elektrotechnik und Physik
(Compulsory subject)
- Bachelorstudium Informationstechnik
(SKZ: 289, Version: 17W.1)
-
Subject: Elektrotechnik und Physik
(Compulsory subject)
-
2.2 Elektrotechnische und physikalische Grundlagen der Informationstechnik 2 (
0.0h KS / 2.0 ECTS)
- 700.153 Physics for Engineers: Kinematics, Dynamics and Thermodynamics (2.0h KS / 2.0 ECTS) Absolvierung im 2. Semester empfohlen
-
2.2 Elektrotechnische und physikalische Grundlagen der Informationstechnik 2 (
0.0h KS / 2.0 ECTS)
-
Subject: Elektrotechnik und Physik
(Compulsory subject)
- Bachelor's degree programme Robotics and Artificial Intelligence
(SKZ: 295, Version: 22W.1)
part of STEOP (Introductory & Orientation Period)
-
Subject: Robotics Engineering Fundamentals
(Compulsory subject)
-
1.2 Physics for Engineers: Kinematics, Dynamics and Thermodynamics (
2.0h KS / 2.0 ECTS)
- 700.153 Physics for Engineers: Kinematics, Dynamics and Thermodynamics (2.0h KS / 2.0 ECTS)
-
1.2 Physics for Engineers: Kinematics, Dynamics and Thermodynamics (
2.0h KS / 2.0 ECTS)
-
Subject: Robotics Engineering Fundamentals
(Compulsory subject)
Equivalent courses for counting the examination attempts
- Sommersemester 2024
- Wintersemester 2023/24
- Sommersemester 2023
- Wintersemester 2022/23
- Sommersemester 2022
- Sommersemester 2021
-
Sommersemester 2020
- 700.151 KS Elektrotechnische und physikalische Grundlagen der Informationstechnik II (2.0h / 2.0ECTS)
-
Sommersemester 2019
- 700.151 KS Elektrotechnische und physikalische Grundlagen der Informationstechnik II (2.0h / 2.0ECTS)
- Sommersemester 2018
-
Sommersemester 2017
- 700.151 KS Elektrotechnische und physikalische Grundlagen der Informationstechnik II (2.0h / 2.0ECTS)
- Sommersemester 2016
- Sommersemester 2015
- Sommersemester 2014
- Sommersemester 2013