The Calendar
The Moon is busy this month, occulting the planets Mars and Uranus twice and achieving its nearest perigee of the year. Jupiter reaches perihelion on 20 January, the first time since March 2011, whilst Mars spends January moving back and forth north of the head of Taurus, the Bull.
| Date |
Body |
Event |
| 1 |
Venus |
maximum declination south: −22.10° |
| Jupiter |
maximum declination south: −0.83° |
| Saturn |
maximum declination south: −15.32° |
| Saturn |
1.3° north of the fourth-magnitude star γ Capricorni (Nashira) |
| Saturn |
maximum ring opening: 13.63° |
| Neptune |
maximum declination south: −4.05° |
| Moon |
ascending node |
| Moon, Uranus |
lunar occultation: 0.7° apart (visible from most of North America) |
| 2 |
Mercury |
perihelion: 0.308 au |
| Mars |
1.7° north of the fourth-magnitude star υ Tauri |
| 3 |
Moon |
2.6° south of the open star cluster M45 (Pleiades) |
| Moon, Mars |
lunar occultation: 0.5° apart (visible from southern Africa and Madagascar) |
| 4 |
Earth |
Quadrantid meteor shower |
| Mars |
2.2° north of the fourth-magnitude star κ¹ Tauri |
| Earth |
perihelion: 0.983 au |
| 5 |
|
|
| 6 |
Moon |
full |
| 7 |
Mercury |
inferior conjunction |
| Moon |
1.9° south of the first-magnitude star β Geminorum (Pollux) |
| 8 |
Moon |
apogee |
| 2 Pallas |
opposition |
| 9 |
|
|
| 10 |
|
|
| 11 |
|
|
| 12 |
Comet C/2022 E3 (ZTF) |
perihelion |
| Mars |
stationary in right ascension: retrograde → direct |
| Mars |
stationary in ecliptic longitude: retrograde → direct |
| 13 |
|
|
| 14 |
Saturn |
1.4° north of the third-magnitude star δ Capricorni (Deneb Algedi) |
| 15 |
Moon |
last quarter |
| 16 |
Moon |
descending node |
| 17 |
|
|
| 18 |
Moon |
2.1° north of the first-magnitude star α Scorpii (Antares) |
| Mercury |
stationary in right ascension: retrograde → direct |
| Mercury |
stationary in ecliptic longitude: retrograde → direct |
| 134340 Pluto |
conjunction |
| 19 |
|
|
| 20 |
Moon, Mercury |
6.9° apart |
| Jupiter |
perihelion: 4.951 au |
| 21 |
Uranus |
maximum declination south: +15.89° |
| Moon |
new |
| Moon |
perigee: nearest (356,570 km) |
| 22 |
Mars |
2.2° north of the fourth-magnitude star κ¹ Tauri |
| Venus, Saturn |
0.3° apart |
| 23 |
Uranus |
stationary in right ascension: retrograde → direct |
| Uranus |
stationary in ecliptic longitude: retrograde → direct |
| Moon, Saturn |
3.8° apart |
| Moon, Venus |
3.5° apart |
| Mars |
1.7° north of the fourth-magnitude star υ Tauri |
| 24 |
|
|
| 25 |
Moon, Neptune |
2.7° apart |
| 26 |
Moon, Jupiter |
1.8° apart |
| 27 |
|
|
| 28 |
Moon |
first quarter |
| Moon |
ascending node |
| 29 |
Moon, Uranus |
lunar occultation: 0.9° apart (visible from Alaska, Siberia and the Arctic) |
| 30 |
Mercury |
greatest elongation west: 25.0° |
| Moon |
2.4° south of the open star cluster M45 (Pleiades) |
| 31 |
Moon, Mars |
lunar occultation: 0.1° apart (visible from the southern United States, Mexico, Central America and northern South America) |
The Solar System
The word planet is derived from the Greek word for 'wanderer'. Unlike the background stars, planets seem to move around the sky, keeping mostly to a narrow track called the ecliptic, the path of the Sun across the stars. Dwarf planets and small solar-system bodies, including comets, are not so constrained, often moving far above or below the ecliptic.
Sun
Sagittarius → Capricornus
Mercury
Sagittarius
Mercury makes a brief appearance in the west as the year opens but soon disappears, undergoing inferior conjunction on 7 January. It soon reappears in the morning sky in what is an excellent apparition for early risers in equatorial and southern latitudes. The tiny planet reaches a stationary point mid-month, returning to direct motion on 18 January, and reaches a greatest elongation west of 25.0° on 30 January. Look for Mercury when it's at its highest and brightest near the end of the month.
Venus
Sagittarius → Capricornus → Aquarius
Venus is the evening star, appearing a little higher above the western horizon every evening. It is only 0.3° away from Saturn on 22 January; although Venus is at its minimum brightness this month, it is still far brighter than first-magnitude Saturn.
Earth and Moon
The nearly Full Moon washes out the annual display of Quadrantid meteors early in the month. Earth reaches perihelion, its closest approach to the Sun, on 4 January. The New Moon on 21 January coincides with the nearest perigee of the year; proxigean spring tides, an extreme form of a spring tide, will result. Look for the waxing gibbous Moon 2.6° south of M45, the Pleiades, on 3 January and 2.4° south of the open cluster on the penultimate day of the month. The Moon will draw closer and closer to this star cluster with each passing month, until it begins occulting the brightest member of the group in September. The waning gibbous Moon also passes 1.9° south of first-magnitude Pollux on 7 January and 2.1° north of red Antares on 18 January. Look for the comet C/2022 E3 (ZFT) from mid-month onwards as it may just reach naked-eye brightness.
Mars
Taurus
Mars enters the year in retrograde, before reaching its stationary point mid-month and returning to prograde motion. It virtually retraces its steps, passing 1.7° north of the fourth-magnitude A-type variable star υ Tauri on both 2 January and 23 January, and moving 2.2° north another fourth-magnitude A-type star, κ¹ Tauri, on both 4 January and 22 January. Two lunar occultations take place this month. The first event occurs on the third day of the month, when Mars disappears behind the waxing gibbous Moon's disk. Observers in southern Africa and Madagascar should be on the look out from around 18:00 UT. The second occultation takes place on the last day of month. Beginning around 02:00 UT, the red planet vanishes behind the waxing gibbous Moon as seen from northwestern South America, Central America, Mexico, the southern United States and the Caribbean Sea. Look for Mars in the evening sky. It is at its brightest at the beginning of the year, shining at magnitude −1.2 on 1 January but dimming to −0.3 by next month.
Jupiter
Pisces
Jupiter is at its maximum declination south for the year on 1 January. It reaches perihelion on 20 January, having last reached this point in 2011. Shining at magnitude −2.3, the king of the planets is an evening sky object but sets two or more hours before midnight. The waxing crescent Moon passes 1.8° south of the planet on 26 January.
Saturn
Capricornus
Found just north of the fourth-magnitude variable star γ Capricorni (Nashira) as the year commences, Saturn is also at its most southerly declination for 2023. In addition, its rings are at their most open, at 13.63°. Saturn is an evening sky object, found low in the west as the skies darken, and sets during dusk by the end of the month. On 14 January, the ringed planet passes 1.4° north of another bright star in Capricornus, third-magnitude Deneb Algedi or δ Capricorni. The evening star and Saturn are 0.3° apart on 22 January but the gas giant is getting increasingly difficult to spot near the horizon as next month's conjunction approaches. The young crescent Moon passes just under 4° south of the planet the following day.
Uranus
Aries
Uranus starts the year off by temporarily hiding from view. The green ice giant is occulted by the waxing gibbous Moon on 1 January, an event which is visible from northeastern United States, northern Canada, the Arctic, Greenland, Iceland, the British Isles, Scandinavia and northwestern Russia. A second lunar occultation occurs on 29 January; this is visible from the Arctic, including Alaska and Siberia. Uranus is an evening sky object, best viewed from the northern hemisphere where it doesn't set until well after midnight. The sixth-magnitude planet reaches its maximum southerly declination for the year on 21 January and two days later, returns to direct motion after having entered the year in retrograde.
Neptune
Aquarius
Faint Neptune begins the year at its maximum southerly declination for 2023. An evening sky object, it sets before midnight for all latitudes. A very young crescent Moon is less than 3° south of the planet on 25 January. As always, a small telescope is necessary to view this most distant planet in the solar system.
The Celestial Sphere
Constellations are patterns of stars in the sky. The International Astronomical Union recognises 88 different constellations. The brightest stars as seen from the Earth are easy to spot but do you know their proper names? With a set of binoculars you can look for fainter objects such as nebulae and galaxies and star clusters or some of the closest stars to the Sun.
Descriptions of the sky for observers in both the northern and southern hemispheres are available for the following times this month. Subtract one hour from your local time if summer (daylight savings) time is in effect.
