700.152 (24S) Physics for Engineers: Kinematics, Dynamics and Thermodynamics
Überblick
- Lehrende/r
- LV-Titel englisch Physics for Engineers: Kinematics, Dynamics and Thermodynamics
- LV-Art Kurs (prüfungsimmanente LV )
- LV-Modell Präsenzlehrveranstaltung
- Semesterstunde/n 2.0
- ECTS-Anrechnungspunkte 2.0
- Anmeldungen 39 (30 max.)
- Organisationseinheit
- Unterrichtssprache Englisch
- LV-Beginn 01.03.2024
- eLearning zum Moodle-Kurs
Zeit und Ort
LV-Beschreibung
Intendierte Lernergebnisse
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.
Lehrmethodik
- solved exercises in class
- homeworks
Inhalt/e
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
Erwartete Vorkenntnisse
Curriculare Anmeldevoraussetzungen
Literatur
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
Link auf weitere Informationen
Prüfungsinformationen
Prüfungsmethode/n
Homeworks will bbe graded
Prüfungsinhalt/e
Mechanics of rigid and elastic bodies
Thermodynamics
Beurteilungskriterien/-maßstäbe
The courses will be graded as follows:
All students will receive 5 homeworks (with 4-6 exercises each), which shall be solved and studied at home. They will exclusively be put on Moodle one week prior to mini-exams.
At the beginning of the next unit, 2 randomly picked exercises with slight alterations to the homework exercises have to be solved in a closed-book mini-exam at the beginning of the class. The time period is 30-45min depending on the complexity of the tasks.
Please have a pen, pencil, and pocket calculator (additionally also eraser and ruler if needed) ready. All other items, including course notes and pencil cases are not allowed on the desks during examination. Additional paper will be provided by the lecturers on demand.
Make sure to arrive on time for units with mini-exams.
Each mini-exam exercise will yield a maximum of 4 points (pts). So, there are a total of 8 points for each mini-exam.
Subpoints will be granted for non-fully solved exercises.
The max. achievable point count is 40. The grades will be determined as followed:
• 40.0 - 35.0 --> 1
• 34.9 - 30.0 --> 2
• 29.9 - 25.0 --> 3
• 24.9 - 20.0 --> 4
• < 20 --> 5 (fail)
The dates for the mini-exams are scheduled to be on:
(Note: slight changes in this schedule are possible)
• October 20th (next week !)
• November 17th
• December 1st
• January 12th
• January 26th
Beurteilungsschema
Note BenotungsschemaPosition im Curriculum
- Bachelorstudium Informationstechnik
(SKZ: 289, Version: 22W.1)
-
Fach: Elektrotechnik und Physik
(Pflichtfach)
-
3.2 Grundlagen der Physik: Kinematik, Dynamik und Thermodynamik (
0.0h KS / 2.0 ECTS)
- 700.152 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)
-
Fach: Elektrotechnik und Physik
(Pflichtfach)
- Bachelorstudium Informationstechnik
(SKZ: 289, Version: 17W.1)
-
Fach: Elektrotechnik und Physik
(Pflichtfach)
-
2.2 Elektrotechnische und physikalische Grundlagen der Informationstechnik 2 (
0.0h KS / 2.0 ECTS)
- 700.152 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)
-
Fach: Elektrotechnik und Physik
(Pflichtfach)
- Bachelorstudium Robotics and Artificial Intelligence
(SKZ: 295, Version: 22W.1)
Teil der STEOP
-
Fach: Robotics Engineering Fundamentals
(Pflichtfach)
-
1.2 Physics for Engineers: Kinematics, Dynamics and Thermodynamics (LV der StEOP) (
2.0h KS / 2.0 ECTS)
- 700.152 Physics for Engineers: Kinematics, Dynamics and Thermodynamics (2.0h KS / 2.0 ECTS)
-
1.2 Physics for Engineers: Kinematics, Dynamics and Thermodynamics (LV der StEOP) (
2.0h KS / 2.0 ECTS)
-
Fach: Robotics Engineering Fundamentals
(Pflichtfach)
Gleichwertige Lehrveranstaltungen im Sinne der Prüfungsantrittszählung
-
Sommersemester 2024
- 700.151 KS Physics for Engineers: Kinematics, Dynamics and Thermodynamics (2.0h / 2.0ECTS)
- 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