==== Vortragsplan Bachelor ====
|< 80% - >|
^ Datum/Date ^ Vortrag/Talk ^ Vortragender/Speaker ^
| | To be determined | |
\\
/*
===============
Possible talks:
===============
|< 80% - >|
^ Datum/Date ^ Vortrag/Talk ^ Vortragender/Speaker ^
| 09.04. | {{de:labcourse:talks:bachelor_einfuehrung_ss2019.pdf | Praktikumsorganisation (Organization)}} | |
| 23.04. | Koordinaten am Himmel | ... |
| 07.05. | Das OST, Technik und Bedienung | ... |
| 09.05. | Das OST, Technik und Bedienung; Koordinaten am Himmel | ... |
| 21.05. | Aufbau und Funktionsweise eines CCDs | ... |
| 04.06. | Ergebnispräsentation | ... |
| 24.05. | Astronomical coordinate systems. Kepler Laws. | ... |
| 14.01. | Transits im Sonnensystem | ... |
| 14.01. | Die Kepler Gesetze | ... |
| 14.01. | Exoplaneten | ... |
| 21.01. | Entfernungsbestimmung in der Astrophysik | ... |
| 30.10. | Das OST, Technik und Bedienung und räumliches Auflösungsvermögen | Alexander Postl |
| 27.11. | Die Sonne: Aufbau, Kenngrößen und Randverdunkelung | Philipp Lehmann |
| 27.11. | Die Sonne: Rotation und Aktivitätserscheinungen | ... |
| 04.11. | Die Sonne: Randverdunkelung und Aktivitätserscheinungen (B) | ... |
| 20.12. | Die Sonne: Aktivitätserscheinungen und Randverdunklung (B) | ... |
| 11.12. | Doppelsterne und Auflösungsvermögen | ... |
| 11.12. | Der Mond: Eigenschaften und Entstehungstheorie | ... |
| 25.12. | Weihnachten | ... |
| 26.04. | Beobachtungsstrategien und Objektauswahl (B) | ... |
| 21.05. | Beobachtungsstrategien, Objektauswahl und astronomische Objekte | ... |
| 09.05. | Beobachtungsstrategien, Astronomische Objekte und Aspekte zu deren Beobachtung | ... |
| 24.05. | Astronomische Objekte und Aspekte zu deren Beobachtung (B) | ... |
| 12.05. | Astronomische Teleskope (B) | ... |
*/
==== Vortragsplan master ====
For a comprehensive overview of how to prepare talks in a scientific context, see:
- this {{en:labcourse:talks:how_to_present.pdf|presentation}}
- this {{en:labcourse:talks:checklist_talks.pdf|checklist}}
|< 100% - >|
^ Date ^ Talk ^ Speaker ^
| 10.04. | Organization Meeting | |
| 17.04. | Astro-Quiz | ... |
| 24.04. | How to give a seminar talk. Astro-Quiz | Margaritis Chatzis |
| 08.05. (I) | Principles of optical telescopic observations I. - reflectors, magnification, aberrations. OST | Varshini Subramanian|
| 08.05. (II) | Principles of optical telescopic observations II. - astronomical coordinates, telescope mounts, astroclimate. OST | Sophia Dahm |
| 15.05. (I) | Stars: spectral types and the HRD | Louis Henkel|
| 15.05. (II) | Spectroscopy - different types of spectrographs and basic principles. OST | Muhammad Saif Misbah |
| 22.05. (I) | Stellar evolution, evolutionary tracks, and isochrones on the HRD and CMD |Jui Parkhi |
| 05.06. (I) | N2: Description of the observation, data reduction, and data analysis |Acchyut Jolly |
| 05.06. (II) | N1: Description of the observation, data reduction, and data analysis |Dennis Heberer |
| 12.06. (I) | The Sun: structure, dynamo, and magnetic field. The solar observatory at the Einsteinturm |Richard Lehm |
| 19.06. (I) | Eclipsing binaries and other methods to determine stellar masses | Shreyas Kathuria |
| 19.06. (II) | Photometry - stellar magnitudes, extinction, photometric bands, modern photometry | Goutham Krishna Leons|
| 26.06. (I) | Stars: spectral types, modern spectral classification schemes, and stellar tracks on the HRD | Doniya Jiju |
| 26.06. (II) | The Sun: solar activity, solar cycle, solar spots, and Zeeman effect measurements |Arpita Dhall |
* 08.05. (I)
* 08.05. (II)
* 15.05. (I)
* 15.05. (II)
* 22.05. (I)
* 22.05. (II)
* 05.06. (I)
* 05.06. (II)
* 12.06. (I)
* 12.06. (II)
* 19.06. (I)
/*
Talk slides can be found [[ https://polaris.astro.physik.uni-potsdam.de/talks/ | here ]]
The talk slides from the mid-term presentation can be found {{ :en:labcourse:talks:mid_term_04_01_2022_04_01_2022.pdf | here}}
/*
/*
===============
Possible talks:
===============
^ Date/Datum ^ Talk/Vortrag ^ Speaker/Vortragender ^
| 19.06. (II) | Binary stars and radial velocity measurements as a tool to determine stellar properties | |
| 26.06. (I) | Eclipsing binaries and other methods to determine stellar masses | |
| 26.06. (II) | Observational challenges I. - solar system objects and how to observe them with the OST | |
| 03.07. (I) | Observational challenges II. - observational properties of galaxies and how to observe them with OST | |
| 12.06. (II) | Background in OST observations: cosmic rays, thermal background, astrophysical background | |
| 05.11. | N1: Description of the observation, data reduction, and data analysis | ... |
| 05.11. | CCD technology | ... |
| 12.12. | CCD technology, photometry, and aspects of the data reduction | ... |
| 12.11. | The solar observatory at the Einsteinturm | ... |
| 19.11. | The Sun: structure, rotation, solar phenomena | ... |
| 19.11. | Our spectrographs | ... |
| 06.02. | Our spectrographs and aspects of the data reduction | ... |
| 29.11. | Classification/spectral types, spectral analysis of stars, our spectrographs, and aspects of the data reduction | ... |
| 03.12. | Stellar spectra: spectral types, classification, and spectral analysis | ... |
| 16.05. | Stellar spectra: spectral types, classification, and how to observe them | ... |
| 12.05. | Classification/spectral types | ... |
| 12.05. | Spectral analysis of stars | ... |
| 03.12. | N2: Description of the observation, data reduction, and data analysis | ... |
| 20.11. | The Zeeman effect | ... |
| 04.12. | The way of a star in the HRD | ... |
| 26.04. | The way of a star in the HRD, the structure and burning phases of stars, and photometry | ... |
| 09.01. | The way of a star in the HRD and the burning phases of stars | ... |
| 15.11. | The way of a star in the HRD as well as the structure and burning phases of stars | ... |
| 04.12. | The structure and burning processes of stars | ... |
| 16.05. | The structure and burning phases of stars | ... |
| 01.01. | New Year | ... |
| 15.01. | Distance Ladder | ... |
| 15.01. | Galaxies | ... |
| 12.02. | Presentation of the results | ... |
| 28.11. | What is a star? | ... |
| 02.05. | Spectroscopy with the OST: description of the observation, data reduction, and data analysis | ... |
| 02.05. | Photometry with the OST: description of the observation, data reduction, and data analysis | ... |
| 23.05. | The Sun: structure, dynamo, and magnetic field. The solar observatory at the Einsteinturm | ... |
| 23.05. | The Sun: solar activity, solar cycle, solar spots, and Zeeman effect measurements | ... |
| 30.05. | Stars: spectral types and the HRD | ... |
| 06.06. | Binary stars and radial velocity measurements as a tool to determine stellar properties | ... |
| 13.06. | Eclipsing binaries and other methods to determine stellar masses | ... |
| 20.06. | Exoplanets and the methods of their detection | ... |
| 20.06. | Photometry - stellar magnitudes, extinction, photometric bands, modern photometry | ... |
| 27.06. | Principles of optical telescopic observations I. - reflectors, magnification, aberrations. OST | ... |
| 27.06. | Spectroscopy - different types of spectrographs and basic principles. OST | ... |
| 04.07. | Principles of optical telescopic observations II. - astronomical coordinates, telescope mounts, astroclimat. OST | ... |
| 04.07. |The largest ground based optical telescopes and future perspectives (telescopes and instruments) | ... |
| 11.07. | Variable and pulsating stars. Light-curves. Asteroseysmology | ... |
| 11.07. | Stellar evolution and evolutionary tracks on the HRD and CMD | ... |
| 18.07. | Solar System Planets and how to observe them with the OST | ... |
*/