Latest news with #amateurastronomers
Yahoo
03-08-2025
- Science
- Yahoo
August Moon: Here's what to look for during all 4 major moon phases
When you buy through links on our articles, Future and its syndication partners may earn a commission. The ever-shifting phases of Earth's moon present a wealth of targets for amateur astronomers to explore, ranging from magnificent craters and lunar seas to strange visual phenomena created as sunlight plays across the ancient surface, forming familiar shapes where none should be. So, grab your telescope and join us on a short, guided "road trip" of August's moon, in which we'll highlight a series of stunning targets to explore during each moon phase. Any backyard telescope will allow you to pick out the targets on our list, though a scope with an aperture of 6 inches or more will help reveal more detail across ancient lunar landscapes. Be sure to check out our roundups of the best telescopes and binoculars for exploring the solar system if you find yourself wanting a closer look at Earth's natural satellite. The first quarter moon (Aug. 1) The nights following each new moon phase will see the line separating night from day on the lunar surface creep inexorably westward. By Aug. 1, this line of demarcation — known as the terminator — will divide the lunar surface in two, heralding the onset of the moon's "first quarter phase." During this phase, the moon will already be high in the sky at sunset, with its right side fully lit and its left hidden under a veil of shadow. The nights leading up to Aug. 1 present a perfect opportunity to search for the historic Apollo 11 landing site on the southwestern shore of Mare Tranquilitatis (Latin for the Sea of Tranquility), from where Neil Armstrong announced "the Eagle has landed" on July 20, 1969. Mare Tranquilitatis is easily visible to the naked eye as a dark basaltic plain close to the equator to the right of the terminator, as indicated on the graphic below. A 6-inch telescope will help you zero in on the landing zone — known as Tranquility Base — by looking to the lower right of the prominent Ritter and Sabine craters, which can be found on the western edge of the lunar mare. Two nights later, on Aug. 4, the moon's terminator will fall slightly to the west of the Sinus Iridum impact basin, causing a brilliant "Golden Handle' to appear in the northwest region of the lunar surface. This striking effect occurs when the sun's rays pick out the peaks of the Montes Jura mountain range on the northern edge of Mare Imbrium. The full "Sturgeon Moon" (Aug. 9) By Aug. 9, the relentless westward march of the terminator will have swept across the entirety of the lunar surface, setting the stage for the full "Sturgeon Moon" to slip above the horizon at sunset, local time. The Sturgeon Moon is named for the time of year when the titular fish are most readily caught; it presents a good opportunity to observe the mighty form of Tycho crater extending its influence over the lunar disk. Tycho is easily visible to the naked eye, thanks in part to the vast streaks (or rays) of reflective material cast outward across the lunar surface in the wake of the brutal asteroid impact that created the 53-mile-wide (85-kilometer) crater. Every one of the moon's larger impact sites would have once played host to a bright ray system like Tycho, though exposure to the harsh space environment has since caused many to fade. After all, Tycho formed a mere 108 million years ago, while other lunar craters have been estimated to be 3.9 billion years of age. The August full moon also presents a great time to learn the locations of the many lunar mare (Latin for "seas") that can be spotted with the naked eye as the surface of Earth's natural satellite darkens. Each of the mare visible today were created billions of years ago, when lava flows filled the network of lunar craters carved out by powerful asteroid strikes. The lava lakes swiftly hardened to "repave" the moon, forming enormous basaltic plains that can be explored without the need for a telescope or binoculars. Mare Crisium can be spotted as a dark oval to the northeast of the lunar surface, while Mare Tranquillitatis (the Sea of Tranquility) — which plays host to the Apollo 11 landing site — is located to its left, bordered to the north by Mare Serenitatis (the Sea of Serenity). The equatorial region to the westward side of the lunar disk is dominated by Oceanus Procellarum (the Ocean of Storms), with Mare Imbrium (the Sea of Showers) to the north and Mare Nubium (the Sea of Clouds) to the south. The third quarter moon (Aug. 16) The passing of the full moon will see the terminator return to sweep over the eastern limb of the lunar surface until, finally, on Aug. 16, the third quarter moon will rise, with its right half bathed in shadow and its left illuminated by direct sunlight. Aug. 16 is a great opportunity to observe a dramatic display of light and shadow play across the terminator and to hunt down a pair of massive craters named to honor two legendary ancient Greek philosophers, inventors and astronomers: Plato and Archimedes. Look for the 62-mile-wide (10 km) Plato Crater just below the narrow form of Mare Frigoris soon after the moon rises around midnight on Aug. 16. Then, follow the terminator south to find the similarly sized Archimedes impact site above the pronounced sweep of the Montes Apenninus mountain range. The following night (Aug. 17) is a wonderful time to see the Copernicus and Kepler craters brightening Oceanus Procellarum. Both impact sites are surrounded by bright ejecta rays, albeit less pronounced than those exhibited by Tycho further to the south. The Copernicus Crater looks particularly impressive around this time, with its westward rim and central peak cast into relief by the oblique angle of the sun. Copernicus had been proposed as a candidate landing site for the Apollo 18 crewed lunar mission, though the program was cancelled long before its scheduled launch date due to budget constraints. New moon (August 23) During the new moon phase, the lunar disk lurks unseen in the daytime sky, leaving the night unblemished by the glare of reflected sunlight. Head away from city lights around this time to hunt the glowing band of the Milky Way's core, which can be spotted during the summer months streaming towards the eastern horizon as dusk gives way to night in dark sky locations. The moon will appear as a slim waning or waxing crescent on a handful of nights before and after the new moon phase, during which you may see the shadow-veiled expanse of the lunar surface infused with a soft glow. This phenomenon, known as "Earthshine," or the "Da Vinci Glow," occurs when the moon is positioned roughly between our planet and the sun, at which point sunlight reflected off Earth's surface bathes the unlit lunar disk in a subtle glow. Editor's Note: If you would like to share your astrophotography with readers, then please send your photo(s), comments, and your name and location to spacephotos@ Solve the daily Crossword
Forbes
24-06-2025
- Science
- Forbes
A ‘New Star' Suddenly Got 3 Million Times Brighter — How To See It
A new star has appeared in the night sky and is rapidly brightening, according to amateur astronomers. Called V462 Lupi, it's currently 3.3 million times brighter than usual and visible to the naked eye, though only from more southerly regions of North America. The Lupus constellation, home to V462 Lupi, a nova that is rapidly brightening. getty The star has increased in brightness by almost 16 times in the 20 days since it was discovered. When it was first seen, V462 Lupi was +8.7 magnitude — too dim to be seen with the naked eye — but has since rapidly brightened to +5.7 magnitude, which is on the cusp of naked eye visibility. It's usually a +22.3 magnitude star, 3.3 million times dimmer than it's right now. Since this is its first recorded eruption, it's unknown how long V462 Lupi will be visible to the naked eye. It could take just a few days to return to its regular dim levels, or it could take months. V462 Lupi is in the constellation Lupus, the wolf, which is between the constellations Scorpius and Centaurus, but it's not known how far away it is from the solar system. The star is known as a nova, a Latin term meaning 'new star.' It's thought to be a classical nova, an outburst in a binary system where a white dwarf (the dense leftover core of a dying sun-like star) and an expanding red giant star orbit each other. According to NASA, the white dwarf's gravity pulls hot hydrogen from its companion, which builds up and triggers a thermonuclear blast. Unlike supernovas, which obliterate stars, novas are recurring events that only affect the outer layer of a white dwarf. These outbursts can make the system millions of times brighter. How To See V462 Lupi According to Sky and Telescope (which has a useful selection of sky charts), those observing from a latitude around 40 degrees north (California, Nevada, Utah, Colorado, Nebraska, Kansas, Missouri, Illinois, Indiana, Ohio, West Virginia, Pennsylvania and New Jersey) will find V462 Lupi around 10 degrees above the southern horizon at around 10:30 p.m. local time. From the Florida Keys, at around 25 degrees north, V462 Lupi will be 25 degrees above the southern horizon. The higher it is in the sky, the easier it will be to see, though binoculars will make it easier. A finder chart for telescope users is available on the website of the American Association of Variable Star Observers. It's near the bright stars Delta and Beta Lupi. V462 Lupi has appeared as astronomers await the explosion of a recurrent nova — a "repeating new star" that explodes every 80 years. Called T Coronae Borealis (also known as T CrB and the "Blaze Star"), it's classified as a 'cataclysmic variable star' and was observed to brighten to naked-eye visibility in both 1866 and then 80 years later in 1946. A 10-year drop in T CrB's light was reported in a paper in 2023 — thought to be a precursor to a rapid brightening — but it's yet to do so despite predictions it would go nova in March. T CrB is approximately 3,000 light-years away from the solar system — significantly farther than most stars visible in the night sky — which means it exploded 3,000 years ago. Further reading Forbes A Star May Explode Next Week In Once-In-80-Years Event — What To Know By Jamie Carter Forbes NASA Urges Public To Look At Night Sky Now For 'Nova' Location By Jamie Carter Forbes NASA Spacecraft 'Touches Sun' For Final Time In Defining Moment For Humankind By Jamie Carter Forbes Get Ready For The Shortest Day Since Records Began As Earth Spins Faster By Jamie Carter
