Sunrise and Sunset in Ring, Austria
Today the sun rises in Ring at and sets at , giving 15h 52m of daylight.
Times shown in Europe/Vienna · CEST · UTC+02:00
Twilight phases
Wed, Jul 1, 2026Twilight is the period before sunrise and after sunset when the sky is lit by scattered sunlight. There are three phases, each defined by how far the sun is below the horizon.
- Sunrise
- Solar noon
- Sunset
Sun direction and altitude
The sun rises in the east and sets in the west — but the exact compass direction shifts with the seasons. At the solstices the difference can be 50° or more.
Sun path over the day
A polar view of the sun's path across the sky today as seen from Ring. The outer ring is the horizon; the centre is directly overhead.
Ring on the map · sun bearings today
Ring, Austria
- Sunrise 05:03
- Sunset 20:56
- Daylight 15h 52m
- Sunrise bearing 54°
- Sunset bearing 306°
- Continent
- Europe
- Country
- Austria
- City
- Ring
- Population
- 914
- Coordinates
- 47.29°, 15.96°
Longest and shortest day of 2026
The earth's tilt makes the day length swing through the year. In Ring these are the extremes for 2026.
Time zone and daylight saving
Yearly extremes
Day length throughout 2026
The length of the day across the entire year in Ring. Solstices are the peaks and troughs; equinoxes are the 12-hour crossings.
Ring sunrise calendar — July 2026
A full month of sunrise, sunset, twilight, and solar-noon times for Ring. Scroll horizontally on mobile to see all columns.
| Date | Sunrise | Sunset | Daylight | Diff | Civil dawn | Civil dusk | Solar noon | Noon alt. | Rise dir. |
|---|---|---|---|---|---|---|---|---|---|
| 1 Wed Today | 15h 52m | — | 65.8° | 54° NE | |||||
| 2 Thu | 15h 51m | -1m | 65.7° | 54° NE | |||||
| 3 Fri | 15h 50m | -1m | 65.7° | 54° NE | |||||
| 4 Sat | 15h 49m | -1m | 65.6° | 54° NE | |||||
| 5 Sun | 15h 48m | -1m | 65.5° | 54° NE | |||||
| 6 Mon | 15h 47m | -1m | 65.4° | 54° NE | |||||
| 7 Tue | 15h 46m | -1m | 65.3° | 54° NE | |||||
| 8 Wed | 15h 45m | -1m | 65.2° | 55° NE | |||||
| 9 Thu | 15h 43m | -1m | 65.0° | 55° NE | |||||
| 10 Fri | 15h 42m | -1m | 64.9° | 55° NE | |||||
| 11 Sat | 15h 40m | -2m | 64.8° | 55° NE | |||||
| 12 Sun | 15h 39m | -2m | 64.6° | 55° NE | |||||
| 13 Mon | 15h 37m | -2m | 64.5° | 56° NE | |||||
| 14 Tue | 15h 35m | -2m | 64.4° | 56° NE | |||||
| 15 Wed | 15h 34m | -2m | 64.2° | 56° NE | |||||
| 16 Thu | 15h 32m | -2m | 64.0° | 56° ENE | |||||
| 17 Fri | 15h 30m | -2m | 63.9° | 57° ENE | |||||
| 18 Sat | 15h 28m | -2m | 63.7° | 57° ENE | |||||
| 19 Sun | 15h 26m | -2m | 63.5° | 57° ENE | |||||
| 20 Mon | 15h 24m | -2m | 63.3° | 58° ENE | |||||
| 21 Tue | 15h 22m | -2m | 63.1° | 58° ENE | |||||
| 22 Wed | 15h 20m | -2m | 62.9° | 58° ENE | |||||
| 23 Thu | 15h 17m | -2m | 62.7° | 59° ENE | |||||
| 24 Fri | 15h 15m | -2m | 62.5° | 59° ENE | |||||
| 25 Sat | 15h 13m | -2m | 62.3° | 59° ENE | |||||
| 26 Sun | 15h 10m | -2m | 62.1° | 60° ENE | |||||
| 27 Mon | 15h 08m | -2m | 61.9° | 60° ENE | |||||
| 28 Tue | 15h 06m | -2m | 61.6° | 60° ENE | |||||
| 29 Wed | 15h 03m | -2m | 61.4° | 61° ENE | |||||
| 30 Thu | 15h 01m | -3m | 61.2° | 61° ENE | |||||
| 31 Fri | 14h 58m | -3m | 60.9° | 61° ENE |
Sunrise & sunset in other Austria cities
Sunrise and sunset for other cities in Austria.
Frequently Asked Questions
Today's day length in Ring is 15h 52m, with 1 min shorter than yesterday compared to yesterday.
The longest day of 2026 in Ring is June 21, with 15h 56m of daylight.
The shortest day of 2026 in Ring is December 21, with 8h 28m of daylight.
Today the sun rises 54° east of north in Ring (approximately NE) and sets at 306° (NW).
Yes. Ring uses Europe/Vienna, with the next DST transition on October 25, 2026.
Civil twilight covers the sun between 0° and 6° below the horizon; nautical twilight is 6° to 12°; astronomical twilight is 12° to 18°. After astronomical twilight the sky is fully dark.
Earth's rotational axis is tilted about 23.5° relative to its orbit, so as the planet circles the sun each hemisphere faces toward the sun for part of the year and away for the other. That tilt is why days grow longer around each summer solstice and shorter around each winter solstice — the effect is strongest near the poles and vanishes at the equator.
Data source
Times computed with the NOAA / SunCalc solar-geometry model. Sea-level horizon is assumed; local terrain and buildings may shift actual times by several minutes.
Sunrise JSON API https://worldstats.org/api/sunrise/ring-at
Updated: