700.151 (22W) Physics for Engineers: Kinematics, Dynamics and Thermodynamics
Overview
For further information regarding teaching on campus, please visit: https://www.aau.at/en/corona.
- 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 30 (30 max.)
- Organisational unit
- Language of instruction English
- Course begins on 07.10.2022
- eLearning Go to Moodle course
- Seniorstudium Liberale Yes
Time and place
Course Information
Intended learning outcomes
Students will be able to:
Explain the basic laws and concepts of mechanics of rigid and elastic bodiesand thermodynamics and apply the laws using concrete examples.
Teaching methodology
-
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 and strain
Fluids and gases
Flows
Thermodynamics
Heat energy and temperature
Temperature scales
Thermal expansion
Equation of state of the ideal gas
Heat capacity and specific heat
Heat transfer
First law of thermodynamics
pV diagram, isochoric and isobaric change of state
Adiabatic change of state
Entropy
Second law of thermodynamics
Heat engines and Carnot efficiency
Refrigerating circuits
Prior knowledge expected
-
Curricular registration requirements
-
Literature
Douglas C.Giancoli:Physics
Halliday, Resnick, Walker: Physics
Dieter Meschede(Ed.) Gerthsen Physics
Wolfgang Demtröder: Experimental Physics I
Paul A. Tipler: Physics
Hering, Martin, Stohrer: Physics for Engineers
Examination information
Examination methodology
Written Exam
Homeworks
Examination topic(s)
Mechanics of rigid and elastic bodies
Thermodynamics
Grading scheme
Grade / Grade grading schemePosition in the curriculum
- 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)
- 700.151 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 Information Technology
(SKZ: 289, Version: 12W.2)
-
Subject: Elektrotechnik und Physik
(Compulsory subject)
-
Elektrotechnische und physikalische Grundlagen der Informationstechnik 2 (
2.0h KU / 2.0 ECTS)
- 700.151 Physics for Engineers: Kinematics, Dynamics and Thermodynamics (2.0h KS / 2.0 ECTS) Absolvierung im 2. Semester empfohlen
-
Elektrotechnische und physikalische Grundlagen der Informationstechnik 2 (
2.0h KU / 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)
- 700.151 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
- 700.152 KS Physics for Engineers: Kinematics, Dynamics and Thermodynamics (2.0h / 2.0ECTS)
- 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