Triangulum Australe Constellation
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Triangulum, the triangle, is a small northern constellation known for its triangular shape, containing the Triangulum Galaxy (M33), a member of the Local Group.
Triangulum Australe Rise and Set Timetable
Time | Elevation | |
Triangulum Australe is always below the horizon | - | |
Triangulum Australe Transit | 10:36 | -16° |
Moon Set | 12:27 | -18° |
Astrosession begin | 18:15 | -46° |
Moon Rise, 57% illuminated | 23:50 | -62° |
Astrosession end | 06:46 | -24° |
Track Triangulum Australe Position Throughout the Night
← Sat, 21 December 2024 →
Time | |
Altitude | |
Azimuth |
Shift the map to change the time and observe Triangulum Australe changing position in the night sky.
Annual motion of Triangulum Australe
Date | Sun, 22 December 2024 |
Twighlight start | 18:44 |
Twighlight end | 06:07 |
Twighlight duration | 11h 23m |
Rise | Triangulum Australe is always down |
Set | Triangulum Australe is always down |
Elevation at transit | -16° |
Transit time | 10:32 |
Equatorial coordinate | RA: 16h 06m 52s", Dec: -65° 32' 54s |
Magnitude | - |
Constellation |
The graph illustrates the annual visibility pattern of a Triangulum Australe, providing a comprehensive overview of its daily appearances and transit times throughout the year.
The graph is structured with the vertical axis showing the hours of the day, ranging from 12 AM to 12 AM the next day, while the horizontal axis spans each day of the year.
The reddish shaded area indicates the periods when the Triangulum Australe is above the horizon, visible to observers. The white line marks the times when the celestial object reaches its highest point in the sky each day, known as the transit.
The graph is structured with the vertical axis showing the hours of the day, ranging from 12 AM to 12 AM the next day, while the horizontal axis spans each day of the year.
The reddish shaded area indicates the periods when the Triangulum Australe is above the horizon, visible to observers. The white line marks the times when the celestial object reaches its highest point in the sky each day, known as the transit.
Acknowledgements
We gratefully acknowledge the International Astronomical Union (IAU) for defining and standardizing the official constellation boundaries, which provide a consistent framework for celestial mapping.
Special thanks to Sky & Telescope Magazine and contributors Roger Sinnott and Rick Fienberg for their collaboration in producing the charts and tables. The constellation patterns, drawn by Alan MacRobert, were influenced by the work of H. A. Rey and thoughtfully adjusted to align with earlier traditions.