New moon of June 2025 sees Mercury climb to its highest point in the sky
The new moon occurs on June 25. A day later, Mercury reaches its highest point in the evening sky, and on June 27, the young moon will make a close pass to the planet.
The exact moment of the new moon phase occurs at 6:31 a.m. Eastern Daylight Time (1031 UTC), in New York, according to the U.S. Naval Observatory. A new moon describes the moment when the sun and moon share a celestial longitude (called right ascension by astronomers), a projection of Earth's longitude lines on the sky measured eastward from the point where the sun crosses the celestial equator.
This position is also called a conjunction, and it can only happen when the moon is directly between Earth and the sun.
Sometimes the sun, moon and Earth line up perfectly, and the result is a solar eclipse. No eclipse is scheduled for this new moon, though – the next one is due on Sept. 21. Outside of solar eclipses, new moons are not visible.
Lunar phases are determined by the moon's position in its orbit around Earth, so they occur at the same time everywhere; the difference in the hour is solely due to one's time zone. The new moon thus occurs at 3:31 a.m. in Los Angeles, 11:31 a.m. in Paris, and 7:31 p.m. local time in Tokyo.
On June 25 the sun sets at 8:31 p.m. in New York, according to the U.S. Naval Observatory; just five days after the solstice (June 20), so in the Northern Hemisphere days are still quite long. The sky starts to get dark enough to see bright objects by about 9:15 p.m. At that point, one can see Mercury if there is a clear horizon. From New York City the planet will be about 8 degrees above the horizon; tricky to spot, but still possible if conditions are right.
On June 26, Mercury reaches its highest elevation for Northern Hemisphere observers; at 9:15 it is still about 8 degrees high; that day the moon will be a thin crescent on the right side of the planet. On June 27, in the wee hours of the morning in New York (2:03 a.m.), the moon passes within 3 degrees of Mercury; while the conjunction itself won't be visible (both the moon and Mercury are below the horizon) by the evening the moon will appear to the left of the planet and above it.
Mars, meanwhile, will be low in the west, as the planet sinks a bit each day towards the evening sun; by August, Mars will be lost in the solar glare. One can spot it easily by its reddish color; while the planet is not as bright as it can be (it is at a point in its orbit where it is further from Earth) the color remains distinct.
Saturn rises after midnight at 12:48 a.m. EDT, (June 26) followed by Venus at 2:56 a.m. By sunrise at 4:53 a.m. Saturn is at 40 degrees and Venus at about 23 degrees; a good exercise is to see how close to sunrise one can still spot the two planets.
For those located closer to the equator, Mercury is a bit higher; from Bridgetown, Barbados, it is at 22 degrees at sunset (6:28 p.m.) and won't be visible until about a half hour later. The planet sets at 8:10 p.m. June 25. The June 27 conjunction with the moon is more visible as one goes far westwards from New York; in Honolulu, Hawaii, the conjunction is at 8:03 p.m. and Mercury will still be 12 degrees above the western horizon with the thin crescent moon above it at about 22 degrees. In the tropics, the effect of seasons on day length is much less pronounced – sunset on June 25 in Honolulu is at 7:17 p.m., rather earlier than in New York.
From the Southern Hemisphere, Mars will be in the northwest after sunset. As it is the austral winter, sunsets are early. In Santiago, Chile, for example, sunset is at 5:43 p.m. local time on June 25. By 6:30 p.m. local time Mars is 40 degrees above the northwestern horizon in the constellation Leo.
Closer to the horizon is Mercury which, as in the Northern Hemisphere, is a challenge to observe, but it is slightly higher for austral sky watchers; about 10 degrees high, so with a clear horizon and no trees or buildings one can catch it. Mercury sets in Santiago by 7:33 p.m. local time.
In Santiago, Saturn rises on June 26 at 12:48 a.m. Venus rises at 4:20 a.m.; by 6 a.m. Saturn is about 53 degrees high in the north-northeast and Venus is at 20 degrees in the northeast. Sunrise isn't until 7:47 a.m., by 7 a.m. as the sky is getting light one can see Venus in the northeast and Saturn just west of north.
In June in the Northern Hemisphere, the sky doesn't get fully dark until about 10 p.m. at the latitude of New York, Denver, San Francisco or Tokyo. In New York City, astronomical twilight, when the sun is between 12 and 18 degrees below the horizon and the last of the daylight disappears, is between 9:47 and 10:37 p.m. on June 25.
At 10 p.m., as one can look south and see the red star Antares, about 21 degrees high; one can distinguish it from Mars because the planet will be in the west (to the right). Another way to know the difference immediately is that on nights when stars visibly twinkle planets shine with a steady light. At this time of year one can see the entirety of Scorpius, the Scorpion, from mid-northern latitudes, though the very end of the Scorpion's tail is brushing the horizon and is only visible if there's nothing in the way. That said, one can easily catch the three stars to the right of Antares that mark the claws.
Turning eastwards (left) and even closer to the horizon one can see the "teapot" shape of Sagittarius the Archer rising; it gets more visible as the night progresses and gets to its highest altitude (about 20 degrees) by about 1 a.m. June 26.
Further left, almost due east at 10 p.m. and about 23 degrees high is Altair, the eye of Aquila the Eagle, which is the southernmost point of the Summer Triangle. The other two are Vega, or Alpha Lyrae, which is upwards and to the left of Altair, more than halfway to the zenith in the east-northeast. The third star is Deneb, the brightest star in Cygnus, the Swan, located a bit higher than Altair and towards the northeast. All three stars form a right triangle shape with the 90-degree corner at Deneb and are bright enough that they are visible even in light-polluted areas.
The Big Dipper, which is a common orientation point for Northern Hemisphere sky watchers, is in the northeast, about two thirds of the way to the zenith from the horizon. At 10 p.m. it will be to the left as one faces north, almost vertical with the bowl on the downward side. On the bottom side of the bowl in this orientation are the stars called Dubhe and Merak that point to Polaris. Dubhe will be on the right; one finds Polaris, the Pole Star, by making a line between the two and continuing until one reaches it. The Big Dipper is not a constellation in itself; it is part of the larger group that is the constellation Ursa Major, the Great Bear. Polaris is the end of the handle of the Little Dipper, the asterism that makes up most of Ursa Minor, the Little Bear.
Following the handle of the Dipper one can "arc to Arcturus" –a sweeping motion along the curve of the handle gets you there, to the brightest star in Boötes, the Herdsman. Continuing that arc one hits Spica, the brightest star in Virgo. If one draws a line between Dubhe and Merak away from Polaris one reaches Leo, the Lion.
Arcturus is high at 10 p.m. – 62 degrees above the southwestern horizon. Looking a bit to the left, one can see an arc of stars with a brighter one at the halfway point of the arc; this is Corona Borealis, the Northern Crown. The bright star Alpha Corona Borealis is called Alphecca; at this point one is looking almost directly overhead.
Further left (east) from Corona Borealis is a square of fainter stars that makes up the central part of Hercules. The square is sometimes called the Keystone. If one moves south (toward the horizon) one meets Ophiuchus, the Serpent Holder, a large and faint constellation above Scorpius. Ophiuchus makes a large, narrow, five-sided shape – rather like a tall A-frame house.
Starting with Antares, if one looks up and to the left of it, there is a star called Pi Ophiuchi, or Sabik, that is the bottom left corner of the main body of Ophiuchus, and to the right and above that is Zeta Ophiuchi. Look slightly to the left and upwards and one sees Kappa Ophiuchi, the right upper corner of the "box" that is Ophiuchus' body (think of it as his shoulder). Look leftward and one sees the slightly brighter star Ras Alhague, Alpha Ophiuchi, the head, and to the left and downward is the other shoulder, Beta Ophiuchi or Cebalrai (pronounced with a hard C).
In the Southern Hemisphere, the sky gets dark enough to see stars by 7:00 p.m. Observers in mid-southern latitudes can see Scorpius 40 degrees high in the east; by 11 p.m. the constellation is almost directly overhead. Looking due south and upwards – two thirds of the way to the zenith – is Crux, the Southern Cross. The cross will be upright, so the bottom star is Acrux (Alpha Crucis), while on the left is Mimosa (Beta Crucis), the top is Gacrux (Gamma Crucis) and the right point is Imai (Delta Crucis).
Draw a line between Imai and Mimosa to the left and one hits Hadar, the second brightest star in Cetaurus, the Centaur. To the left of that and slightly downward is Alpha Centauri, also called Rigil Kentaurus, our nearest stellar neighbor.
Turning right towards the southwest, one can see Canopus at about 25 degrees high; it's the brightest star in Carina, the Ship's Keel. Above Canopus is a large ring of about seven stars (nine from a darker sky location) that is Vela, the Sail.
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Until they set after midnight, the duo will share the view in binoculars (orange circle). Observers viewing the pair later, or in more westerly time zones, will see the moon's easterly orbital motion carry it farther from the star. Hours earlier, that motion will cause the moon to pass in front of Spica for skywatchers located at the extreme southern end of South America and most of Antarctica. The brilliant planet Venus will dominate the eastern predawn sky for most of this year while it slowly swings back toward the sun. On the mornings surrounding Friday, July 4, Venus will pass close enough to Uranus to allow early risers to use Venus to locate the far fainter planet in binoculars (orange circle). On the previous mornings, the magnitude 5.8, blue-green speck of Uranus will shine several finger widths to Venus' left (or 3.5 degrees to its celestial northeast). 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Sinus Iridum is almost craterless, but hosts a set of northeast-oriented dorsae or "wrinkle ridges" that are revealed at this phase. In the southern sky after dusk on Monday, July 7, the prominent reddish star Antares will be twinkling several finger widths to the right of the bright, waxing gibbous moon. By the time Antares sets ahead of the moon, at around 2:30 a.m. local time, the rotation of the sky will have shifted it lower than the moon. About half a day earlier, residents of the southern tip of Africa, the Kerguelen Islands, and easternmost Antarctica can watch the moon occult Antares using their unaided eyes or through binoculars and backyard telescopes. Antares marks the heart of Scorpius, the Scorpion, and is frequently visited by the moon and planets. On the nights around Wednesday, July 9, the ringed planet Saturn will finally begin to rise before midnight for observers located at mid-northern latitudes, making Saturn available for evening viewing again after a long absence. During the wee hours, the bright, creamy-yellow planet will climb the southeastern sky below the Great Square of Pegasus. Due to Earth's motion around the sun, the stars and distant planets rise about 4 minutes earlier each day, or about half an hour earlier with each passing week. Saturn will be returning just a few weeks before the red dot of Mars disappears into the western twilight. Then Saturn will reign until Jupiter enters the evening sky around mid-October. The moon will reach its full phase on Thursday, July 10, at 4:37 p.m. EDT or 1:37 p.m. PDT and 20:37 GMT. The July full moon, commonly called the Buck Moon, Thunder Moon, or Hay Moon, always shines in or near the stars of Sagittarius or Capricornus. The indigenous Ojibwe people of the Great Lakes region call this moon Abitaa-niibini Giizis, the Halfway Summer Moon, or Mskomini Giizis, the Raspberry Moon. The Cherokees call it Guyegwoni, the Corn in Tassel Moon. The Cree Nation of central Canada calls the July full moon Opaskowipisim, the Feather Moulting Moon (referring to wild waterfowl habits), and the Mohawks call it Ohiarihkó:wa, the Fruits are Ripened Moon. The moon only appears full when it is opposite the sun in the sky, so full moons always rise in the east as the sun is setting, and set in the west at sunrise. Since sunlight is hitting the moon face-on at that time, no shadows are cast. All the variations in brightness you see arise from differences in the reflectivity, or albedo, of the lunar surface rocks. Summertime full moons are as low in the sky as the winter noonday sun. After dusk in mid-July, the first stars to appear in the darkening eastern sky are Vega, Deneb, and Altair. Those three bright, white stars form the Summer Triangle asterism - an annual feature of the summer sky that remains visible until the end of December! The highest and most easterly of the trio is Vega, in Lyra. At magnitude 0.03, Vega is the brightest star in the summer sky, mainly due to its relative proximity. It's only 25 light-years away from the sun. Magnitude 0.75 Altair, in Aquila, occupies the lower right (southern) corner of the triangle. Altair is 17 light-years from the sun. By contrast, Deneb, which shines somewhat less brightly at magnitude 1.25, is a staggering 2,600 light-years away from us, but it shines so brightly because of its greater intrinsic luminosity. Once the bright moon departs next week, watch for the Milky Way passing between Vega and Altair and through Deneb. On Monday morning, July 14, the regular eastward motion of Saturn through the background stars of western Pisces will slow to a stop as it prepares to execute a westerly retrograde loop (red curve) that will last until the end of November. The apparent reversal in Saturn's motion is an effect of parallax produced when Earth, on a faster orbit closer to the sun, passes the Ringed Planet on the "inside track". Saturn's retrograde loop will altogether cover about a palm's width (or 7 degrees) of the celestial sphere, though there aren't any bright stars near Saturn to make that motion obvious. A short time after the bright, waning gibbous moon clears the treetops in the east around midnight on Tuesday evening, July 15, the prominent, yellowish dot of Saturn will climb to join it, close enough to the moon for them to share the view in binoculars (orange circle). The very faint blue planet Neptune will be positioned just a finger's width above Saturn, but a telescope will be required to see it well. The trio will cross the sky together and shine about halfway up the southern sky as dawn breaks on Wednesday morning. The moon will complete three-quarters of its orbit around Earth, measured from the previous new moon, on Thursday, July 17, at 8:38 p.m. EDT or 5:38 p.m. PDT, which converts to Friday at 02:52 GMT. At the third (or last) quarter phase, the moon appears half-illuminated on its western, sunward side. It will rise around midnight local time, and then remain visible until it sets in the western daytime sky in early afternoon. Third quarter moons are positioned ahead of the Earth in our trip around the Sun. About 3½ hours later, Earth will occupy that same location in space. The week of dark, moonless evening skies that follow this phase are the best ones for observing deep sky targets. After dusk in mid-July, the distinctive constellation of Scorpius, the Scorpion, reaches its peak elevation over the southern horizon. The constellation's brightest star is orange-tinted Antares, the "Rival of Mars". Several medium-bright, white stars arranged in a roughly vertical line to the west of Antares mark the creature's claws on modern sky charts; however, the major stars of neighboring Libra used to perform that role. The rest of the scorpion extends to the south and curls to the left (celestial eastward) into the Milky Way, terminating with the bright double star Shaula, which marks its poisonous stinger. Observers at high mid-northern latitudes might not be able to see the southernmost stars of the constellation. In the eastern sky before dawn on Sunday morning, July 20, the pretty, waning crescent moon will shine very close to the bright little Pleiades Star Cluster (aka The Seven Sisters, Subaru, and Messier 45) in Taurus. The pairing will show nicely in binoculars (orange circle). For skywatchers in the Americas, the moon will pass directly through the cluster's stars starting at about 4:25 a.m. EDT or 08:25 GMT. By the time the moon completes its passage around two hours later, the sky will be brightening in the Eastern and Central time zones, but it will still be dark in the Pacific Time zone. Keep an eye out for the blue-green speck of Uranus to the lower right of the Pleiades all year. After 24 hours of additional eastward motion, the more slender crescent of the waning moon will make a lovely sight while it shines above the brilliant planet Venus in the east before sunrise on Monday, July 21. The pair can be enjoyed and photographed between the time that Venus rises at about 3 a.m. local time and sunrise. The very bright planet Jupiter will gleam to their lower left once it rises at around 4 a.m. local time. On Tuesday morning, the moon will shift to a position between Jupiter and Venus. The old crescent moon will complete its visit with the bright morning planets on Wednesday, July 22, when its slim, 2.5%-illuminated sliver will shine less than a palm's width to the left (or 5 degrees to the celestial northeast) of brilliant Jupiter. Before the sun begins to rise, you can place Jupiter on the right edge of your binoculars' field of view (orange circle) and find the moon on the left. On Thursday, July 24, at 3:11 p.m. EDT or 12:11 p.m. PDT, or 19:11 GMT, the moon will officially reach its new moon phase. At that time, our natural satellite will be located in Cancer, 3.4 degrees north of the sun. While new, the moon is travelling in space between Earth and the sun. Since sunlight can only illuminate the far side of the moon, and the moon is in the same region of the sky as the sun, it becomes completely hidden from view from anywhere on Earth for about a day (unless there's a solar eclipse). After the new moon phase, Earth's celestial night-light will return to shine as a crescent in the western evening sky. On the nights surrounding Friday morning, July 25, the dim and distant dwarf planet designated (134340) Pluto will reach opposition for 2025. On that date, the Earth will be positioned between Pluto and the sun, minimizing our distance from that outer world and maximizing Pluto's visibility. While at opposition, Pluto will be located 3.28 billion miles, 5.28 billion km, or 285 light-minutes from Earth. Unfortunately, it will shine with an extremely faint visual magnitude of +14.4 that is far too dim for visual observing through a small backyard telescope. Pluto will be located in southwestern Capricornus, about a palm's width to the upper right (or 5.9 degrees to the celestial WNW) of the medium-bright star Psi Capricorni and to the lower left of the globular star cluster Messier 75. Even if you can't see Pluto directly, you will know that it is there. For a short time after sunset on Saturday, July 26, the extremely slender crescent of the young moon will shine above the western horizon. As the sky darkens, Leo's brightest star Regulus, will appear just to the lower right (or celestial west) of the moon — close enough for them to share the view in binoculars (orange circle). Observers closer to the tropics, where the ecliptic will be more vertical, will see their conjunction more easily. As the sky begins to darken after dusk on Monday, July 28, look low in the western sky for reddish Mars shining several finger widths to the upper right (or 3 degrees to the celestial north) of the waxing moon's slender crescent — close enough for them to share the view in binoculars (orange circle). Since the moon continuously slides east by its own diameter every hour, observers in Europe and Africa will see the moon close below Mars, while those in the western Americas and the Pacific Ocean region will see the moon farther to the left of Mars. The annual Southern Delta-Aquariids meteor shower lasts from July 18 to August 21. In 2025, it will peak during the wee hours of Tuesday morning, July 29, in the Americas, but it is quite active for a week surrounding the peak night. The best viewing time will run from late Monday evening until the sky starts to brighten on Tuesday morning. The waxing crescent moon will not affect the shower this year. The Southern Delta-Aquariids shower, produced by debris dropped from the periodic Comet 96P/Machholz, commonly generates 15-20 meteors per hour at the peak. It is best enjoyed from the southern tropics, where the shower's radiant, in southern Aquarius, climbs higher in the sky. After a previous visit on July 3, the moon's trip around Earth will bring it back to shine near Virgo's brightest star Spica, again on Wednesday evening, July 30. As darkness falls, look low in the western sky for bright, white Spica twinkling several finger widths to the upper left (or celestial east) of the pretty crescent moon. Skywatchers located in more westerly time zones will see the moon closer to the star, clear evidence of our natural satellite's orbital motion. As July opens, Mercury will continue a rather poor appearance in the western sky after sunset for observers located at mid-northern latitudes, but a favorable one when viewing it from the tropics and farther south. The innermost planet will reach its widest angle 25.9 degrees east of the sun on July 3 and then remain just above the western horizon for a short period after sunset until about mid-month. After that, it will rapidly drop sunward and disappear. From an initial magnitude of 0.3 on July 1, Mercury will diminish considerably in brightness through the month's end. Viewed in a telescope (but only after the sun has completely set), Mercury's orbital motion toward inferior solar conjunction on July 31 will reduce its phase from 45%-illuminated to a slim crescent, and grow its apparent size from 7.8 to nearly 11 arc-seconds. Mercury will skim the southern edge of the Beehive cluster in Cancer for several evenings surrounding July 2, though the conjunction will be best viewed in binoculars from equatorial latitudes. During July, Venus will continue to dominate the eastern pre-dawn sky from the time it rises, shortly before 3 a.m. local time, until sunrise. Venus' easterly motion through Taurus will reduce its angle from the sun by 5 degrees and carry it 2.4 degrees south of far fainter Uranus and the nearby Pleiades cluster on July 4. As it steadily increases its distance from Earth during July, Venus' brilliance will slightly decrease. Over the same interval, a telescope will show its disk waxing from 64% to 75% illuminated and its apparent size shrinking from 17.8 to 14.4 arc-seconds. Early risers can enjoy Venus gleaming above Aldebaran and the stars of the Hyades Cluster for about a week centered on July 11. Bright Jupiter will rise to join Venus after mid-month, setting up a lovely photo opportunity when the waning crescent moon joins them from July 21 to 23 Mars will continue to shine in the lower part of the western sky after dusk during July, though its decreasing angle from the sun will shorten its observing window daily. After a close conjunction with Regulus in late June, the reddish planet will race east across southern Leo and enter Virgo on July 28. Mars' steadily increasing distance from Earth will slightly reduce its brightness from magnitude 1.5 to 1.6 and shrink its 94%-illuminated disk size from 4.9 to 4.4 arc-seconds. After sunset on July 28, the waxing crescent moon will shine several degrees to the lower left of Mars. Following its solar conjunction on June 24, bright, magnitude -1.9 Jupiter will stretch far enough west of the sun for it to appear just above the eastern horizon before sunrise starting around mid-July — joining much brighter Venus. By the end of the month, Jupiter will rise with the stars of Gemini around it, and its angle from Venus will shrink to 12 degrees. The pretty, waning crescent moon will make for some lovely photo opportunities when it passes Venus and approaches Jupiter from July 21 to 23. After the opening days of July, Saturn will begin to rise in the east around midnight local time. As its rising time advances daily, it will climb high enough to produce fine telescope views of the ringed planet from late evening until dawn. Saturn's eastward motion through western Pisces will slow to a stop on July 14 when it begins a 7-degree wide retrograde loop that will last until late November. Saturn will brighten from magnitude 1.0 to 0.85 during July. In a telescope, its disk and rings will grow a little in apparent size. Only four months after its ring-plane crossing in March, Saturn's rings will remain narrow and its moons will continue to travel close to its ring plane, producing shadow transits of its largest moon Titan ,every 16 days. Saturn will be accompanied by 500 times fainter, magnitude 7.8 Neptune, which will appear as a dull blue "star" shining only 1 degree to its north. The waning gibbous moon will be positioned several degrees above (or celestial north of) Saturn on July 16. During July, Uranus will rise in the east with the stars of Taurus during the wee hours and attain enough elevation for telescope viewing before the onset of dawn twilight. The planet will spend this year positioned less than a binocular's field to the lower right (or about 4 degrees to the celestial SSW) of the prominent Pleiades star cluster. During July, magnitude 5.8 Uranus can be spotted as a blue-green speck in binoculars and as a small 3.5 arc-seconds-wide disk through any telescope. On July 4, the far brighter planet Venus will pass 2.4 degrees to the south of Uranus. On July 20, the waning crescent moon will shine near Uranus while making a passage through the Pleiades. Magnitude 7.9 Neptune will spend July climbing the southeastern sky from late evening until dawn and appearing as a dull blue "star" located only 1 degree north of 500 times brighter Saturn in southwestern Pisces. On July 5, the outermost planet will commence a retrograde loop that will last until mid-December. The waning gibbous moon will shine near Neptune and Saturn on July 16.
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July will bring a sighting of the 'Swift Planet', the Buck Moon and a meteor shower. Watch for these dates
July will be packed with cosmic activity. Mercury, the fastest-moving planet in our solar system, will make a rare and optimal appearance, providing a chance to spot it near the western horizon. Halfway through the month, the Buck Moon will illuminate the night sky. Toward the end of July, the Southern Delta Aquariid meteor shower will peak. Here's what else to know. Mercury, the closest planet to the sun, always appears near it in the sky and often fades into the sun's glare. On July 4, however, Mercury will reach its greatest elongation — the farthest apparent distance from the sun — offering sky gazers a view of the "Swift Planet." To spot Mercury, look toward the western horizon shortly after sunset, said EarthSky. It will be positioned low in the sky, while Mars, shining as brightly as a first-magnitude star, will be higher up in the evening twilight. Why is it the "Swift Planet"? According to the National Air and Space Museum, Mercury is known as the "Swift Planet" because of how fast it travels through space, 29 miles per second. It's the fastest planet in the Solar System. July's full moon, known as the Buck Moon, rises on July 10. According to the Old Farmer's Almanac, the moon will reach peak illumination at 3:37 p.m. CT. The July full moon's name is inspired by the seasonal cycle of male deer, or bucks, whose antlers reach their full growth during this time. The almanac attributes full moon names to a variety of origins, including Native American, Colonial American, and European traditions. Historically, these names referred to the entire lunar month rather than just the full moon itself. Several other names for July's moon also reference animals, including Feather Moulting Moon (Cree) and Salmon Moon, a Tlingit term indicating when fish returned to the area and were ready to be harvested, wrote the almanac. The Southern Delta Aquariids meteor shower begins in mid-July and lasts until late August. According to NASA, the faint meteors can be hard to spot, especially if the moon is shining. The best chance to see them is during their peak on July 29–30, when meteor activity is highest. Under dark, moon-free skies, you may observe 7–8 meteors per hour traveling at 26 miles per second. In 2025, a waxing crescent moon will set early, making the morning hours ideal for viewing, said the American Meteor Society. Similar to May's Eta Aquariids, the Southern Delta Aquariids are more prominent in the Southern Hemisphere, though they can still be observed from locations such as the southern United States, said EarthSky. Diana Leyva covers trending news and service journalism for the Tennessean. Contact her at Dleyva@ or follow her on X at @_leyvadiana This article originally appeared on Nashville Tennessean: When is the next full moon? July brings the Buck Moon, meteor shower
