This is Ephemeris for Wednesday, January 7th. Today the Sun will be up for 8 hours and 59 minutes, setting at 5:19, and it will rise tomorrow at 8:19. The Moon, 3 days before last quarter, will rise at 10:37 this evening.
Let’s take our first weekly look at the whereabouts of the naked-eye planets for 2026. Saturn is the brightest star-like object in the southwestern sky as soon as it gets dark. In a telescope Saturn sports a very thin ring, 1.2 degrees from being edge on and is slowly opening. Jupiter will rise just after sunset. It is seen in the evening right of Pollux in the pair Castor and Pollux, the bright stars of Gemini. The giant planet is slowly moving westward with its retrograde motion. Jupiter’s 4 brightest moons can be seen even in binoculars, and shift position night to night. In the morning sky, only Jupiter can be seen. It will leave the morning sky, become an official evening planet Saturday. Venus crossed behind the Sun yesterday to become an evening planet. Mars will also cross behind the Sun Friday to become a morning planet.
The astronomical event times given in this blog are for the Traverse City/Interlochen area of Michigan (Lat 44.7° N, Long 85.7° W; EST, UT – 5 hours) unless stated otherwise. Times will be different for other locations.
Addendum
The apparent path of Jupiter from July 15, 2025 to July 10, 2026, showing its retrograde loop. We are 3 days from Jupiter’s opposition from the Sun. The retrograde (western) motion is due to the Earth’s faster speed in its orbit overtaking the planet. Created using Stellarium and LibreOffice Draw.
The Moon two days before last quarter as seen tomorrow morning, January 8, 2026. A view visible in small telescopes showing an image with and without selected features labeled. Created using Stellarium, LibreOffice Draw, and GIMP.
Telescopic Saturn, and Jupiter (north up) as they would be seen in a small telescope with the same magnification at 8 PM tonight, January 7, 2026. Saturn will be 16.9″ in diameter, but its rings, being nearly edge on, may show up brighter than seen here, and extend to 39.4″. They are tilted 1.2° from being edge on. Jupiter will be 46.6″ in diameter. The (”) symbol means seconds of arc, or 1/3600th of a degree. Created using Cartes du Ciel (Sky Charts), LibreOffice Draw and GIMP.
The naked-eye planets and the Moon at sunset and sunrise on a single night, starting with sunset on the right on January 7th, 2026. The night ends on the left with sunrise on the 8th. Note the overlapping of Mars and Venus with the Sun. I’ve had to show a bit below the horizon to get Venus in on the sunset chart. See the image below to see them appear near the Sun. Click or tap on the image to enlarge it. Created using my LookingUp app and GIMP.
This this is a photograph of the Sun, Venus and Mars taken through the Solar and Heliospheric Observatory‘s (SOHO) C2 coronagraph last night at 8:37 PM or 1:37 today Universal Time. Venus is heading to the left, while Mars is heading to the right. They are both beyond the Sun. Venus will be entering our evening sky, and should be visible in about a month. Mars will be moving into the morning sky and it will take several months before it will be visible then. Credit: NOAA/ESA.
This is a low precision ephemeris of the Sun Moon and naked eye planet positions for today and tomorrow, January 7th and 8th, 2026. Some of the columns are self-explanatory, others are not. The transit column is the time that the body crosses the meridian and is due south. Elong, for elongation, is the angle between the Sun and that body. RA is right ascension, which is the object’s east-west position on the celestial sphere in hours and minutes. Dec is declination which is the north-south position of the object on the celestial sphere in degrees and minutes. R is the distance of that object from the Sun in astronomical units. An astronomical unit is about 93 million miles or 150 million kilometers. And Delta is the distance of that object from the Earth, also in astronomical units. I omit the ‘m’ in am and pm for compactness. The data was generated using my LookingUp for DOS app and displayed as a table by my Ephemeris Helper app.
Bob Moler's Ephemeris Blog 