neu340 - Invertebrate Neuroscience - Neurophysiology (Veranstaltungsübersicht)

neu340 - Invertebrate Neuroscience - Neurophysiology (Veranstaltungsübersicht)

Department für Neurowissenschaften 6 KP
Modulteile Semesterveranstaltungen Sommersemester 2023 Prüfungsleistung
Seminar
  • Kein Zugang 6.03.341 - Invertebrate Neuroscience - Seminar Lehrende anzeigen
    • Prof. Dr. Jutta Kretzberg
    • Prof. Dr. Jörg Albert
    • Ihor Arkhypchuk

    Termine am Dienstag, 30.05.2023 - Freitag, 02.06.2023, Montag, 05.06.2023 - Freitag, 09.06.2023, Montag, 12.06.2023 - Freitag, 16.06.2023 08:15 - 09:45
    Preparatory meeting: see information group of study programme (https://elearning.uni-oldenburg.de/dispatch.php/course/details?sem_id=97e03f9766f14bbfcfea99fc853251af)

Übung
  • Kein Zugang 6.03.342 - Invertebrate Neuroscience - Exercises Lehrende anzeigen
    • Prof. Dr. Jutta Kretzberg
    • Ihor Arkhypchuk

    Termine am Dienstag, 30.05.2023 - Freitag, 02.06.2023, Montag, 05.06.2023 - Freitag, 09.06.2023, Montag, 12.06.2023 - Freitag, 16.06.2023 10:00 - 14:00
    Experiments will be done in small groups in the labs of PhD students. Plan in 4 hours per day, but time slots may differ depending on the experimens.

Hinweise zum Modul
Teilnahmevoraussetzungen
attendance in pre-meeting
Kapazität/Teilnehmerzahl 12 (
this module provides the background for neu345 "Neural Computation in invertebrate systems"
)
Prüfungszeiten
during the course (summer term, second half)
Prüfungsleistung Modul
Portfolio consisting of short tests, short reports (according to portfolio assignments) and seminar presentations.
Kompetenzziele

++ Neurosci. knowlg.
++ Expt. Methods
+ Scient. Literature
+ Social skills
+ Maths/Stats/Progr.
+ Independent Research
+ Data present./disc.
+ Scientific English
+ Ethics

Upon successful completion of this course, students

  • have knowledge on invertebrate neuronal systems in comparison to vertebrate systems
  • have discussed an overview of experimental and theoretical methods of invertebrate neuroscienc
  • have acquired first practical skills in intracellular recordings from invertebrate neurons
  • have acquired basic skills in data analysis
  • have acquired an intuitive understanding of membrane potential and action potential generation based on computer simulations