pb262 - Programmierkurs C/C++ (Veranstaltungsübersicht)

pb262 - Programmierkurs C/C++ (Veranstaltungsübersicht)

Institut für Physik 6 KP
Modulteile Semesterveranstaltungen Wintersemester 2020/2021 Prüfungsleistung
Vorlesung
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Wenn Sie die Vorlesung "Programmierkurs C++" besuchen wollen, müssen Sie dazu auch die passende Übung auswählen.
)
  • Kein Zugang 5.04.255 - Programming course C++ (Programmierkurs C++ VL) Lehrende anzeigen
    • Dr. Stefan Harfst

    Montag: 14:00 - 16:00, wöchentlich (ab 19.10.2020)
    Termine am Montag, 22.02.2021 14:00 - 15:00

    Aim/ learning outcomes: • learning of the programming language C++ and understanding of basic concepts of programming • finding and correcting programming errors • development of computer programs and organization of complex projects • working with software libraries • independent analysis of scientific problems and their implementation in C++ Content: Linux basics, the C++ programming language (e.g. data types, loops, functions, classes, templates), compiler (function, process), OpenSource tools (e.g. make, gnuplot), implementation of numerical algorithms as application examples

Übung
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Zur Vorlesung gehört auch eine Übung. Bitte wählen Sie aus den verfügbaren Veranstaltungen ihre Favoriten aus und priorisieren diese.
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  • Kein Zugang 5.04.255Ü1 - Programming course C++ (Programmierkurs C++) Lehrende anzeigen
    • Arsalan Najeeb
    • Dr. Stefan Harfst

    Dienstag: 12:15 - 13:45, wöchentlich (ab 20.10.2020), Übung Programmierkurs C++

    Aim/ learning outcomes: • learning of the programming language C++ and understanding of basic concepts of programming • finding and correcting programming errors • development of computer programs and organization of complex projects • working with software libraries • independent analysis of scientific problems and their implementation in C++ Content: Linux basics, the C++ programming language (e.g. data types, loops, functions, classes, templates), compiler (function, process), OpenSource tools (e.g. make, gnuplot), implementation of numerical algorithms as application examples

  • Kein Zugang 5.04.255Ü2 - Programming course C++ (Programmierkurs C++) Lehrende anzeigen
    • Arsalan Najeeb
    • Dr. Stefan Harfst

    Dienstag: 14:15 - 15:45, wöchentlich (ab 20.10.2020)

    Aim/ learning outcomes: • learning of the programming language C++ and understanding of basic concepts of programming • finding and correcting programming errors • development of computer programs and organization of complex projects • working with software libraries • independent analysis of scientific problems and their implementation in C++ Content: Linux basics, the C++ programming language (e.g. data types, loops, functions, classes, templates), compiler (function, process), OpenSource tools (e.g. make, gnuplot), implementation of numerical algorithms as application examples

  • Kein Zugang 5.04.255Ü3 - Programming course C++ (Programmierkurs C++) Lehrende anzeigen
    • TutorInnen, der Physik
    • Dr. Stefan Harfst

    Freitag: 12:15 - 13:45, wöchentlich (ab 23.10.2020), Übung Programmierkurs C++

    Aim/ learning outcomes: • learning of the programming language C++ and understanding of basic concepts of programming • finding and correcting programming errors • development of computer programs and organization of complex projects • working with software libraries • independent analysis of scientific problems and their implementation in C++ Content: Linux basics, the C++ programming language (e.g. data types, loops, functions, classes, templates), compiler (function, process), OpenSource tools (e.g. make, gnuplot), implementation of numerical algorithms as application examples

  • Kein Zugang 5.04.255Ü4 - Programming course C++ (Programmierkurs C++) Lehrende anzeigen
    • Chinmay Chandratre
    • Dr. Stefan Harfst

    Freitag: 14:15 - 15:45, wöchentlich (ab 23.10.2020), Übung Programmierkurs C++

    Aim/ learning outcomes: • learning of the programming language C++ and understanding of basic concepts of programming • finding and correcting programming errors • development of computer programs and organization of complex projects • working with software libraries • independent analysis of scientific problems and their implementation in C++ Content: Linux basics, the C++ programming language (e.g. data types, loops, functions, classes, templates), compiler (function, process), OpenSource tools (e.g. make, gnuplot), implementation of numerical algorithms as application examples

  • Kein Zugang 5.04.255Ü5 - Programming course C++ (Programmierkurs C++) Lehrende anzeigen
    • Chinmay Chandratre
    • Dr. Stefan Harfst

    Freitag: 16:15 - 17:45, wöchentlich (ab 23.10.2020), Übung Programmierkurs C++

    Aim/ learning outcomes: • learning of the programming language C++ and understanding of basic concepts of programming • finding and correcting programming errors • development of computer programs and organization of complex projects • working with software libraries • independent analysis of scientific problems and their implementation in C++ Content: Linux basics, the C++ programming language (e.g. data types, loops, functions, classes, templates), compiler (function, process), OpenSource tools (e.g. make, gnuplot), implementation of numerical algorithms as application examples

  • Kein Zugang 5.04.255Ü6 - Programming course C++ (Programmierkurs C++) Lehrende anzeigen
    • Chinmay Chandratre
    • Dr. Stefan Harfst

    Freitag: 12:15 - 13:45, wöchentlich (ab 23.10.2020)

    Aim/ learning outcomes: • learning of the programming language C++ and understanding of basic concepts of programming • finding and correcting programming errors • development of computer programs and organization of complex projects • working with software libraries • independent analysis of scientific problems and their implementation in C++ Content: Linux basics, the C++ programming language (e.g. data types, loops, functions, classes, templates), compiler (function, process), OpenSource tools (e.g. make, gnuplot), implementation of numerical algorithms as application examples

Hinweise zum Modul
Teilnahmevoraussetzungen
Lineare Algebra, Analysis I
Kapazität/Teilnehmerzahl 80
Prüfungsleistung Modul
Semesterbegleitende fachpraktische Übungen in Form von erfolgreicher Bearbeitung wöchentlicher Übungsaufgaben (Programmierübungen) oder 1 Klausur (max. 60 Min.)
Kompetenzziele
o Erlernen der Programmiersprache C+ + und von grundlegenden Programmierkonzepten o Finden und Beheben von Programmierfehlern o Programmentwicklung und Organisation von komplexen Projekten o Arbeiten mit Bibliotheken o Selbständige Analyse von naturwissenschaftlichen Fragestellungen und deren Umsetzung in C+ +