Lehrinhalte
Physikstudierende, die ihr Studium im Sommersemester beginnen, erhalten die Möglichkeit, direkt in die Experimentalphysikvorlesung des zweiten Semesters, Physik II einzusteigen. Dazu wird parallel Physik I für diese Gruppe auch im Sommer angeboten.
Der physikalische Vorkurs dient dazu, einige ausgewählte Grundlagen und Prinzipien, die für das Verständnis der Physik-II-Vorlesung erforderlich sind, vorzustellen. Der Vorkurs richtet sich damit vor allem an Studienanfängerinnen und -anfänger, aber auch an Studierende, die in Physik I nicht erfolgreich waren und vor Beginn des Sommersemesters wichtige Elemente der Physik I noch einmal wiederholen wollen.
Der physikalische Vorkurs ersetzt nicht die Teilnahme an der Physik I im Sommersemester und ersetzt auch nicht die Teilnahme am mathematischen Vorkurs, der bereits eine Woche früher beginnt.
Voraussetzungen
Empfehlenswert ist der parallele Besuch des Mathe-Vorkurses.
Erwartete Teilnehmerzahl
20
Weitere Informationen
Diese Veranstaltung ist nicht Teil eines Moduls; eine Klausur oder anderweitige Prüfung findet daher nicht statt.
Der Moodle-Kurs (als Ersatz für eine nicht stattfindende Präsenzveranstaltung) enthält Aufzeichnungen, Links und Materialien.
Physikstudierende, die ihr Studium im Sommersemester beginnen, erhalten die Möglichkeit, direkt in die Experimentalphysikvorlesung des zweiten Semesters, Physik II einzusteigen. Dazu wird parallel Physik I für diese Gruppe auch im Sommer angeboten.
Der physikalische Vorkurs dient dazu, einige ausgewählte Grundlagen und Prinzipien, die für das Verständnis der Physik-II-Vorlesung erforderlich sind, vorzustellen. Der Vorkurs richtet sich damit vor allem an Studienanfängerinnen und -anfänger, aber auch an Studierende, die in Physik I nicht erfolgreich waren und vor Beginn des Sommersemesters wichtige Elemente der Physik I noch einmal wiederholen wollen.
Der physikalische Vorkurs ersetzt nicht die Teilnahme an der Physik I im Sommersemester und ersetzt auch nicht die Teilnahme am mathematischen Vorkurs, der bereits eine Woche früher beginnt.
Voraussetzungen
Empfehlenswert ist der parallele Besuch des Mathe-Vorkurses.
Erwartete Teilnehmerzahl
20
Weitere Informationen
Diese Veranstaltung ist nicht Teil eines Moduls; eine Klausur oder anderweitige Prüfung findet daher nicht statt.
Der Moodle-Kurs (als Ersatz für eine nicht stattfindende Präsenzveranstaltung) enthält Aufzeichnungen, Links und Materialien.
- Lehrende: Joachim Enders
Semester: Verão 2020
Lehrinhalte
A basic introduction into civil-engineering-related physics topics. A special
emphasis is put on areas of physics not covered by other courses such as
technical mechanics:
1. Units in physics
2. Thermodynamics
3. Transport
4. Classical interactions: gravity, electricity, magnetism
5. Oscillations and waves
6. Basics of optics
7. Basics of electronics
The lecture is offered as a 4-hour course with live experiments during 3/4 of the term. In addition to the lecture course, extended execises (Übungen) with problem-solving and exam-preparation is offered.
Literatur
All introductory physics textbook,
[b]Physik für Wissenschaftler und Ingenieure[/b] von Paul A. Tipler, Gene Mosca, Michael Basler und Renate Dohmen von Spektrum Akademischer Verlag
[b]Halliday Physik[/b]: Bachelor-Edition von Stephan W. Koch, David Halliday, Robert Resnick und Jearl Walker von Wiley-VCH Verlag GmbH & Co. KGaA
comprehensive reference book:
[b]Physik für Ingenieure[/b] (Hering/Martin/Stohrer, Springer Verlag, Heidelberg)
Voraussetzungen
Basic calculus and technical mechanics. Knowledge of basic physics concepts that are typically part of the curriculum in Physics for the Abitur. To test yourself in these basic concepts or to acquire them, a physics bridge course will be available in the moodle classroom.
Erwartete Teilnehmerzahl
800
Further Grading Information
The exercises are a [i]Studienleistung[/i]. They will help you to gain a deeper insight into the topics of the lecture. They are a very good preparation for the final exam.
[b]Requirements for [i]Studienleistung[/i]:[/b]
(prerequisite for successfully taking part in exam)
will be announced in first lecture
[b]Requirements for [i]Fachprüfung[/i]:[/b] passing final exam (Mi, 28. Aug. 2019 09:00-12:00)
[b]Permitted aids [/b]for the final exam (and the preliminary exam) are
[list]
[*]1 text book of your choice, e.g. Hering "Physik", Tipler "Physik". This book must not contain any notes for solutions added.Also books that are primarily collections of excercies are not allowed.
[*]1 hand-written personal collection of important formulas: 1 page DIN A4 both sides, without solution schemes for excercices.
[*]a calculator (no computer algebra CAS, and no smartphone)
[*]permanent pen
[/list]
Devices with network communication are not allowed.
Übertragungswege
Lecture Hall: S2 06 - 030
additional lecture hall with videos from the lecture hall: S1 01 - A04
Zusätzliche Informationen
To apply for participation in exercice groups to receive the 'Studienleistung', please register in TUCaN until Tuesday, 23.04.2019 23:59.
In case you have already acquired the 'Studienleistung' in previous years, it is still desirable that you participate in the excercies. Here you can also gain a Bonus for the 'Klausur'. To do so, you also have to apply for participation until Tuesday, 23.04.2019 23:59 but since you will not be able to register directly in TUCaN, contact[b] [/b][b]studienbuero@bauing.tu-darmstadt.de[/b] and let them know in which group you want to be subscribed.
Additional Information
Further information as well as presentations and excercises will be available through moodle.
Please use your TU-ID for login. A keyphrase is not neccesary.
http://moodle.tu-darmstadt.de
A basic introduction into civil-engineering-related physics topics. A special
emphasis is put on areas of physics not covered by other courses such as
technical mechanics:
1. Units in physics
2. Thermodynamics
3. Transport
4. Classical interactions: gravity, electricity, magnetism
5. Oscillations and waves
6. Basics of optics
7. Basics of electronics
The lecture is offered as a 4-hour course with live experiments during 3/4 of the term. In addition to the lecture course, extended execises (Übungen) with problem-solving and exam-preparation is offered.
Literatur
All introductory physics textbook,
[b]Physik für Wissenschaftler und Ingenieure[/b] von Paul A. Tipler, Gene Mosca, Michael Basler und Renate Dohmen von Spektrum Akademischer Verlag
[b]Halliday Physik[/b]: Bachelor-Edition von Stephan W. Koch, David Halliday, Robert Resnick und Jearl Walker von Wiley-VCH Verlag GmbH & Co. KGaA
comprehensive reference book:
[b]Physik für Ingenieure[/b] (Hering/Martin/Stohrer, Springer Verlag, Heidelberg)
Voraussetzungen
Basic calculus and technical mechanics. Knowledge of basic physics concepts that are typically part of the curriculum in Physics for the Abitur. To test yourself in these basic concepts or to acquire them, a physics bridge course will be available in the moodle classroom.
Erwartete Teilnehmerzahl
800
Further Grading Information
The exercises are a [i]Studienleistung[/i]. They will help you to gain a deeper insight into the topics of the lecture. They are a very good preparation for the final exam.
[b]Requirements for [i]Studienleistung[/i]:[/b]
(prerequisite for successfully taking part in exam)
will be announced in first lecture
[b]Requirements for [i]Fachprüfung[/i]:[/b] passing final exam (Mi, 28. Aug. 2019 09:00-12:00)
[b]Permitted aids [/b]for the final exam (and the preliminary exam) are
[list]
[*]1 text book of your choice, e.g. Hering "Physik", Tipler "Physik". This book must not contain any notes for solutions added.Also books that are primarily collections of excercies are not allowed.
[*]1 hand-written personal collection of important formulas: 1 page DIN A4 both sides, without solution schemes for excercices.
[*]a calculator (no computer algebra CAS, and no smartphone)
[*]permanent pen
[/list]
Devices with network communication are not allowed.
Übertragungswege
Lecture Hall: S2 06 - 030
additional lecture hall with videos from the lecture hall: S1 01 - A04
Zusätzliche Informationen
To apply for participation in exercice groups to receive the 'Studienleistung', please register in TUCaN until Tuesday, 23.04.2019 23:59.
In case you have already acquired the 'Studienleistung' in previous years, it is still desirable that you participate in the excercies. Here you can also gain a Bonus for the 'Klausur'. To do so, you also have to apply for participation until Tuesday, 23.04.2019 23:59 but since you will not be able to register directly in TUCaN, contact[b] [/b][b]studienbuero@bauing.tu-darmstadt.de[/b] and let them know in which group you want to be subscribed.
Additional Information
Further information as well as presentations and excercises will be available through moodle.
Please use your TU-ID for login. A keyphrase is not neccesary.
http://moodle.tu-darmstadt.de
- Lehrende: Thorsten Kröll
- Lehrende: Wilfried Nörtershäuser
- Lehrende: Gelöschter User (TU-ID gelöscht)
- Lehrende: Thomas Walther
Semester: Verão 2020
Lehrinhalte
[b]Thermodynamics[/b]
[list]
[*]Fundamentals
[*]First law of thermodynamics
[*]Phase transitions and cyclic processes
[/list]
[b]Electromagnetic fields and waves[/b]
[list]
[*]Electric field
[*]Magnetic field
[*]Matter in fields
[*]Time-dependent fields
[*]Electromagnetic radiation
[/list]
[b]Optics[/b]
[list]
[*]Geometrical optics
[*]Wave optics
[/list]
[b]Quantum physics[/b]
[list]
[*]Matter and light quanta
[*]Quantum optics and lasers
[*]Particle-wave duality
[/list]
Literatur
The main suggested text for the lecture is
[b]E. Hering, R. Martin, M. Stohrer,
Physik für Ingenieure[/b]
Springer-Verlag, Berlin und Heidelberg, 11th edition
Beyond this text, numerous textbooks on fundamental physics may be used, e.g.:
[list]
[*]Giancoli: Physics for Scientists & Engineers
[*]Halliday, Resnick, Walker: Fundamentals of Physics
[*]Tipler, Mosca: Physics for Scientists and Engineers
[/list]
Voraussetzungen
Knowledge, skills, and competences acquired in the Module "Physik für ET I"
Erwartete Teilnehmerzahl
250
Further Grading Information
Successful submission of solved homework problems qualifies for an up to 0.4 point grade bonus.
Official Course Description
cf. course description of the Dept. of Electrical Engineering and Information Technology
Online-Angebote
Moodle
[b]Thermodynamics[/b]
[list]
[*]Fundamentals
[*]First law of thermodynamics
[*]Phase transitions and cyclic processes
[/list]
[b]Electromagnetic fields and waves[/b]
[list]
[*]Electric field
[*]Magnetic field
[*]Matter in fields
[*]Time-dependent fields
[*]Electromagnetic radiation
[/list]
[b]Optics[/b]
[list]
[*]Geometrical optics
[*]Wave optics
[/list]
[b]Quantum physics[/b]
[list]
[*]Matter and light quanta
[*]Quantum optics and lasers
[*]Particle-wave duality
[/list]
Literatur
The main suggested text for the lecture is
[b]E. Hering, R. Martin, M. Stohrer,
Physik für Ingenieure[/b]
Springer-Verlag, Berlin und Heidelberg, 11th edition
Beyond this text, numerous textbooks on fundamental physics may be used, e.g.:
[list]
[*]Giancoli: Physics for Scientists & Engineers
[*]Halliday, Resnick, Walker: Fundamentals of Physics
[*]Tipler, Mosca: Physics for Scientists and Engineers
[/list]
Voraussetzungen
Knowledge, skills, and competences acquired in the Module "Physik für ET I"
Erwartete Teilnehmerzahl
250
Further Grading Information
Successful submission of solved homework problems qualifies for an up to 0.4 point grade bonus.
Official Course Description
cf. course description of the Dept. of Electrical Engineering and Information Technology
Online-Angebote
Moodle
- Lehrende: Heiko Scheit
Semester: Verão 2020
Lehrinhalte
[b]Role in the curriculum[/b]
Physics II is part of the introductory course in experimental physics for physics majors in the B.Sc. program, the teacher-education program, and for students majoring in mathematics, computer science, or other subjects.
[b]Topics[/b]
I. Mechanical oscillations and waves
[list]
[*]Oscillations
[*]Waves
[*]Acoustics
[/list]
II. Electrodynamics
[list]
[*]Electrostatics
[*]Direct currents and current networks
[*]Magnetostatics
[*]Time-dependent fields
[*]Maxwell's equations
[*]Electromagnetic oscillations and waves
[/list]
III. Special relativity (time permitting)
[list]
[*]Inertial systems
[/list]
Consequences of the Lorentz transformation
Literatur
Please use a textbook in addition to the material published on the moodle page of this course. To find a textbook most suitable for you, please check the various books prior to purchase.
The books listed below will be cited regularly in the course materials. Please be aware of differences arising from different editions or versions in different languages. The course materials will refer to the editions and versions listed on the German course descrption page, largely different from the list given here for English-language books.
[list]
[*]Giancoli:
Physics for Scientists and Engineers, 4th ed.,
Pearson Education, London 2013
[*]Halliday, Resnick, Walker:
Fundamentals of Physics: Extended, 11th ed.,
John Wiley & Sons, Hoboken, NJ 2018
[*]Tipler, Mosca:
Physics for Scientists and Engineers, 6th ed.,
WH Freeman, New York, NY 2008
[*]Feynman, Leighton, Sands:
The Feynman Lectures on Physics, Vol. I,
Addison-Wesley, Reading, MA 1963
[*]Feynman, Leighton, Sands:
The Feynman Lectures on Physics, Vol. II,
Addison-Wesley, Reading, MA 1964
[/list]
Voraussetzungen
Mathematical preparation course recommended
Physik I recommended; for students commencing their studies in the summer term and those having failed the exam in Physik I, we recommend participation in the physical preparation course.
Erwartete Teilnehmerzahl
200
Further Grading Information
[i]Concept[/i]
The course is partially based on the flipped-classroom concept. For specific lectures, students are required to study written materials or/and videos in advance. The "lecture" will be used to discuss your questions, concepts, and problems.
For in-class quizzes and problems, we will use the on-line voting system PINGO (link to PINGO homepage here). Please bring your smart phone, a tablet computer, or a laptop.
[i]Exam[/i]
Passing the written two-hour exam is required for passing the course. Tentative exam date: Thu July 23, 5:30-7:30 p.m.
[i]Grade-point bonus[/i]
There will be quizzes announced at the beginning of the term. The two best quizzes count. If the marks obtained in the quizzes is better than the grade obatined in the written exam, a grade-point bonus up to 0.4 grade points will be awarded.
Official Course Description
cf. course handbook:
[url]https://www.physik.tu-darmstadt.de/study/bachelor_1/index.de.jsp[/url]
Zusätzliche Informationen
Weekly problem tutorials are offered. The focus of these tutorials is on collaborative problem solving. Homework problems are offered; homework may be handed in the following week for assessment. Problems (and later also solutions) will be published in moodle.
Gefährdungsbeurteilung
[list]
[*]Visiting closed room and lecture halls with large number of participants may stimulate fatigue. We will ask you to open doors and (where available) windows during the breaks. To take environmental issues into consideration, excessive heat loss is to be avoided in heated rooms when venting.
[*]Be advised that mainaining a monotonous, restricted posture (sitting) should be avoided over extended periods of time. Please use the breaks for your personal mobilization.
[*]Also take care of an adaequate seating position when taking notes or when using electronic devices because in lecture halls the recommendations of the workplace guidelines may not be guaranteed.
[*]The lecture halls, in which lecture and recitation sessions will be held, are equipped with stairs. Please note possible tripping hazards. Due to safety reasons, the class cannot start if stairs, flights, or escape routes are blocked, e.g., because of a too large number of participants.
[*]For the case of a possible evacuation (fire, smoke, threat, emergency situations, etc.), please inform yourself before the start of the course about the posted evacuation plans. Follow the signs to the emergency exits.
[*]Should you become aware of an emergency situation (fire, smoke, threat, etc.), please notify teaching personnel immediately.
[/list]
Online-Angebote
Moodle
[b]Role in the curriculum[/b]
Physics II is part of the introductory course in experimental physics for physics majors in the B.Sc. program, the teacher-education program, and for students majoring in mathematics, computer science, or other subjects.
[b]Topics[/b]
I. Mechanical oscillations and waves
[list]
[*]Oscillations
[*]Waves
[*]Acoustics
[/list]
II. Electrodynamics
[list]
[*]Electrostatics
[*]Direct currents and current networks
[*]Magnetostatics
[*]Time-dependent fields
[*]Maxwell's equations
[*]Electromagnetic oscillations and waves
[/list]
III. Special relativity (time permitting)
[list]
[*]Inertial systems
[/list]
Consequences of the Lorentz transformation
Literatur
Please use a textbook in addition to the material published on the moodle page of this course. To find a textbook most suitable for you, please check the various books prior to purchase.
The books listed below will be cited regularly in the course materials. Please be aware of differences arising from different editions or versions in different languages. The course materials will refer to the editions and versions listed on the German course descrption page, largely different from the list given here for English-language books.
[list]
[*]Giancoli:
Physics for Scientists and Engineers, 4th ed.,
Pearson Education, London 2013
[*]Halliday, Resnick, Walker:
Fundamentals of Physics: Extended, 11th ed.,
John Wiley & Sons, Hoboken, NJ 2018
[*]Tipler, Mosca:
Physics for Scientists and Engineers, 6th ed.,
WH Freeman, New York, NY 2008
[*]Feynman, Leighton, Sands:
The Feynman Lectures on Physics, Vol. I,
Addison-Wesley, Reading, MA 1963
[*]Feynman, Leighton, Sands:
The Feynman Lectures on Physics, Vol. II,
Addison-Wesley, Reading, MA 1964
[/list]
Voraussetzungen
Mathematical preparation course recommended
Physik I recommended; for students commencing their studies in the summer term and those having failed the exam in Physik I, we recommend participation in the physical preparation course.
Erwartete Teilnehmerzahl
200
Further Grading Information
[i]Concept[/i]
The course is partially based on the flipped-classroom concept. For specific lectures, students are required to study written materials or/and videos in advance. The "lecture" will be used to discuss your questions, concepts, and problems.
For in-class quizzes and problems, we will use the on-line voting system PINGO (link to PINGO homepage here). Please bring your smart phone, a tablet computer, or a laptop.
[i]Exam[/i]
Passing the written two-hour exam is required for passing the course. Tentative exam date: Thu July 23, 5:30-7:30 p.m.
[i]Grade-point bonus[/i]
There will be quizzes announced at the beginning of the term. The two best quizzes count. If the marks obtained in the quizzes is better than the grade obatined in the written exam, a grade-point bonus up to 0.4 grade points will be awarded.
Official Course Description
cf. course handbook:
[url]https://www.physik.tu-darmstadt.de/study/bachelor_1/index.de.jsp[/url]
Zusätzliche Informationen
Weekly problem tutorials are offered. The focus of these tutorials is on collaborative problem solving. Homework problems are offered; homework may be handed in the following week for assessment. Problems (and later also solutions) will be published in moodle.
Gefährdungsbeurteilung
[list]
[*]Visiting closed room and lecture halls with large number of participants may stimulate fatigue. We will ask you to open doors and (where available) windows during the breaks. To take environmental issues into consideration, excessive heat loss is to be avoided in heated rooms when venting.
[*]Be advised that mainaining a monotonous, restricted posture (sitting) should be avoided over extended periods of time. Please use the breaks for your personal mobilization.
[*]Also take care of an adaequate seating position when taking notes or when using electronic devices because in lecture halls the recommendations of the workplace guidelines may not be guaranteed.
[*]The lecture halls, in which lecture and recitation sessions will be held, are equipped with stairs. Please note possible tripping hazards. Due to safety reasons, the class cannot start if stairs, flights, or escape routes are blocked, e.g., because of a too large number of participants.
[*]For the case of a possible evacuation (fire, smoke, threat, emergency situations, etc.), please inform yourself before the start of the course about the posted evacuation plans. Follow the signs to the emergency exits.
[*]Should you become aware of an emergency situation (fire, smoke, threat, etc.), please notify teaching personnel immediately.
[/list]
Online-Angebote
Moodle
- Lehrende: Joachim Enders
- Lehrende: Oliver Möller
Semester: Verão 2020
Lehrinhalte
Im Rahmen des KI²VA-Teilprojektes Tutorielle Lehre schult der Fachbereich Physik Tutor*innen, die als Übungsleiter*innen in verschiedenen Physikveranstaltungen eingesetzt werden.
Auf diese Aufgaben werden die Tutor*innen in dieser Schulung sehr fachnah vorbereitet und qualifiziert. Anschließend werden sie semesterbegleitend betreut.
Literatur
Literatur zur Vertiefung (freiwillig, manche fragen danach)
Trebing, T. (2016): Tutor/innen in Physikübungen: Didaktische Basisqualifizierung und Prozessbegleitung. KIVA IV: Dokumentation des Ausbaus der Tutor/innenqualifizierung (Fachbereich Physik). Stand 24.08.2016, TU Darmstadt. ([url=http://www.kiva.tu-darmstadt.de/media/dezernat_ii/kiva/relaunch_2/tutorielle_lehre/SPT_TutLehre_Dokumentation_Physik_6april2017.pdf]PDF[/url]) Zum Konzept vgl. ([url=http://www.kiva.tu-darmstadt.de/kiva_schwerpunktthemen/tutorielle_lehre/konzepte_der_fachbereiche/konzept_fb_05/konzept_fb_05.de.jsp]Link[/url])
Trebing, T. (2015): Tutorien: Das Prinzip der minimalen Hilfe in der universitären Rechenübung. In: Zitzelsberger, O.; Meuer, J.; Rößling, G.; Trebing, T. (Hg)(2015):Neue Wege in der Tutoriellen Lehre in der Studieneingangsphase. Dokumentation der gleichnamigen Tagung im März 2014 an der TU Darmstadt. Münster. 101-113.
Erwartete Teilnehmerzahl
10-14
Offizielle Kursbeschreibung
Die Präsenztermine werden nicht präsent stattfinden.
Voraussichtlich wird es einige online zu bearbeitende Aufgaben geben, zwei bis drei gibt es ja schon in TUCaN. Und vielleicht mache ich an einem der beiden ursprünglichen Präsenztermine ein Onlineangebot, etwa das ich mit jedem, der möchte, mal telefoniere und/oder ich eine Webkonferenz als Einstieg, zum Austausch oder als Sprechstunde mit mir anbiete. Ich weiß schlicht noch nicht, was ich hin bekomme.
Ich melde mich Ende der Woche mit einer Nachricht über TUCaN, was der Stand ist.
Rückfragen jederzeit, auch zwischendurch, gerne an mich. (thomas.trebing@physik.tu-darmstadt.de)
Zusätzliche Informationen
Mahara (als Lerntagebuch in PPP/Lehramt oder zur begleitenden Reflexion als Bachelor/Master)
Online-Angebote
moodle
Im Rahmen des KI²VA-Teilprojektes Tutorielle Lehre schult der Fachbereich Physik Tutor*innen, die als Übungsleiter*innen in verschiedenen Physikveranstaltungen eingesetzt werden.
Auf diese Aufgaben werden die Tutor*innen in dieser Schulung sehr fachnah vorbereitet und qualifiziert. Anschließend werden sie semesterbegleitend betreut.
Literatur
Literatur zur Vertiefung (freiwillig, manche fragen danach)
Trebing, T. (2016): Tutor/innen in Physikübungen: Didaktische Basisqualifizierung und Prozessbegleitung. KIVA IV: Dokumentation des Ausbaus der Tutor/innenqualifizierung (Fachbereich Physik). Stand 24.08.2016, TU Darmstadt. ([url=http://www.kiva.tu-darmstadt.de/media/dezernat_ii/kiva/relaunch_2/tutorielle_lehre/SPT_TutLehre_Dokumentation_Physik_6april2017.pdf]PDF[/url]) Zum Konzept vgl. ([url=http://www.kiva.tu-darmstadt.de/kiva_schwerpunktthemen/tutorielle_lehre/konzepte_der_fachbereiche/konzept_fb_05/konzept_fb_05.de.jsp]Link[/url])
Trebing, T. (2015): Tutorien: Das Prinzip der minimalen Hilfe in der universitären Rechenübung. In: Zitzelsberger, O.; Meuer, J.; Rößling, G.; Trebing, T. (Hg)(2015):Neue Wege in der Tutoriellen Lehre in der Studieneingangsphase. Dokumentation der gleichnamigen Tagung im März 2014 an der TU Darmstadt. Münster. 101-113.
Erwartete Teilnehmerzahl
10-14
Offizielle Kursbeschreibung
Die Präsenztermine werden nicht präsent stattfinden.
Voraussichtlich wird es einige online zu bearbeitende Aufgaben geben, zwei bis drei gibt es ja schon in TUCaN. Und vielleicht mache ich an einem der beiden ursprünglichen Präsenztermine ein Onlineangebot, etwa das ich mit jedem, der möchte, mal telefoniere und/oder ich eine Webkonferenz als Einstieg, zum Austausch oder als Sprechstunde mit mir anbiete. Ich weiß schlicht noch nicht, was ich hin bekomme.
Ich melde mich Ende der Woche mit einer Nachricht über TUCaN, was der Stand ist.
Rückfragen jederzeit, auch zwischendurch, gerne an mich. (thomas.trebing@physik.tu-darmstadt.de)
Zusätzliche Informationen
Mahara (als Lerntagebuch in PPP/Lehramt oder zur begleitenden Reflexion als Bachelor/Master)
Online-Angebote
moodle
- Lehrende: Thomas Trebing
Semester: Verão 2020
Lehrinhalte
A basic introduction into civil-engineering-related physics topics. A special
emphasis is put on areas of physics not covered by other courses such as
technical mechanics:
1. Units in physics
2. Thermodynamics
3. Transport
4. Classical interactions: gravity, electricity, magnetism
5. Oscillations and waves
6. Basics of optics
7. Basics of electronics
The lecture is offered as a 4-hour course with live experiments during 3/4 of the term. In addition to the lecture course, extended execises (Übungen) with problem-solving and exam-preparation is offered.
Literatur
All introductory physics textbook,
[b]Physik für Wissenschaftler und Ingenieure[/b] von Paul A. Tipler, Gene Mosca, Michael Basler und Renate Dohmen von Spektrum Akademischer Verlag
[b]Halliday Physik[/b]: Bachelor-Edition von Stephan W. Koch, David Halliday, Robert Resnick und Jearl Walker von Wiley-VCH Verlag GmbH & Co. KGaA
comprehensive reference book:
[b]Physik für Ingenieure[/b] (Hering/Martin/Stohrer, Springer Verlag, Heidelberg)
Voraussetzungen
Basic calculus and technical mechanics. Knowledge of basic physics concepts that are typically part of the curriculum in Physics for the Abitur. To test yourself in these basic concepts or to acquire them, a physics bridge course will be available in the moodle classroom.
Erwartete Teilnehmerzahl
800
Further Grading Information
The exercises are a Studienleistung. They will help you to gain a deeper insight into the topics of the lecture. They are a very good preparation for the final exam.
Requirements for Studienleistung:
(prerequisite for successfully taking part in exam)
will be announced in first lecture
Requirements for Fachprüfung: passing final exam (Mi, 28. Aug. 2019 09:00-12:00)
[list]
[*]Permitted aids for the final exam (and the preliminary exam) are1 text book of your choice, e.g. Hering "Physik", Tipler "Physik". This book must not contain any notes for solutions added.Also books that are primarily collections of excercies are not allowed.
[*]1 hand-written personal collection of important formulas:
[*]1 page DIN A4 both sides, without solution schemes for excercices.
[*]a calculator (no computer algebra CAS, and no smartphone)
[*]permanent pen
[/list]
Devices with network communication are not allowed.
Zusätzliche Informationen
To apply for participation in exercice groups to receive the 'Studienleistung', please register in TUCaN until Tuesday, 23.04.2019 23:59.
In case you have already acquired the 'Studienleistung' in previous years, it is still desirable that you participate in the excercies. Here you can also gain a Bonus for the 'Klausur'. To do so, you also have to apply for participation until Tuesday, 23.04.2019 23:59 but since you will not be able to register directly in TUCaN, contact studienbuero@bauing.tu-darmstadt.de and let them know in which group you want to be subscribed.
A basic introduction into civil-engineering-related physics topics. A special
emphasis is put on areas of physics not covered by other courses such as
technical mechanics:
1. Units in physics
2. Thermodynamics
3. Transport
4. Classical interactions: gravity, electricity, magnetism
5. Oscillations and waves
6. Basics of optics
7. Basics of electronics
The lecture is offered as a 4-hour course with live experiments during 3/4 of the term. In addition to the lecture course, extended execises (Übungen) with problem-solving and exam-preparation is offered.
Literatur
All introductory physics textbook,
[b]Physik für Wissenschaftler und Ingenieure[/b] von Paul A. Tipler, Gene Mosca, Michael Basler und Renate Dohmen von Spektrum Akademischer Verlag
[b]Halliday Physik[/b]: Bachelor-Edition von Stephan W. Koch, David Halliday, Robert Resnick und Jearl Walker von Wiley-VCH Verlag GmbH & Co. KGaA
comprehensive reference book:
[b]Physik für Ingenieure[/b] (Hering/Martin/Stohrer, Springer Verlag, Heidelberg)
Voraussetzungen
Basic calculus and technical mechanics. Knowledge of basic physics concepts that are typically part of the curriculum in Physics for the Abitur. To test yourself in these basic concepts or to acquire them, a physics bridge course will be available in the moodle classroom.
Erwartete Teilnehmerzahl
800
Further Grading Information
The exercises are a Studienleistung. They will help you to gain a deeper insight into the topics of the lecture. They are a very good preparation for the final exam.
Requirements for Studienleistung:
(prerequisite for successfully taking part in exam)
will be announced in first lecture
Requirements for Fachprüfung: passing final exam (Mi, 28. Aug. 2019 09:00-12:00)
[list]
[*]Permitted aids for the final exam (and the preliminary exam) are1 text book of your choice, e.g. Hering "Physik", Tipler "Physik". This book must not contain any notes for solutions added.Also books that are primarily collections of excercies are not allowed.
[*]1 hand-written personal collection of important formulas:
[*]1 page DIN A4 both sides, without solution schemes for excercices.
[*]a calculator (no computer algebra CAS, and no smartphone)
[*]permanent pen
[/list]
Devices with network communication are not allowed.
Zusätzliche Informationen
To apply for participation in exercice groups to receive the 'Studienleistung', please register in TUCaN until Tuesday, 23.04.2019 23:59.
In case you have already acquired the 'Studienleistung' in previous years, it is still desirable that you participate in the excercies. Here you can also gain a Bonus for the 'Klausur'. To do so, you also have to apply for participation until Tuesday, 23.04.2019 23:59 but since you will not be able to register directly in TUCaN, contact studienbuero@bauing.tu-darmstadt.de and let them know in which group you want to be subscribed.
- Lehrende: Thorsten Kröll
- Lehrende: Wilfried Nörtershäuser
- Lehrende: Gelöschter User (TU-ID gelöscht)
- Lehrende: Thomas Walther
Semester: Verão 2020