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Daily Archives: July 11, 2024
This week in Baton Rouge: Astronomy Night, Bachelorette watch party, local music and more – 225 Baton Rouge
Posted: July 11, 2024 at 6:52 pm
Enjoy a watch party tonight
Kick off the latest season of The Bachelorette with friends tonight, Monday, July 8, at Pelican to Mars.
The Mid City bar will host its first Bachelorette Watch Party of season 21. Enjoy a free glass of prosecco while crafting your Bachelorette bracket, and come back each week to see who Jenna Tran, the ABC shows first Asian American lead, gives a rose.
The Bachelorette Watch Party is from 6:30-9:30 p.m. and is free to attend. Pelican to Mars is at 2678 Government St. Find more information here.
Head over to Nicholson Hall on Tuesday, July 9, to experience Astronomy Night at LSU.
Attendees can enjoy Einstein surfing black hole waves presented by Gabriela Gonzlez, LSUs Boyd Professor of Physics. The event will also include physics demos, an astronomy viewing from the Landolt Astronomical Observatory and ice cream.
Astronomy Night is from 5:30-10 p.m. It is free and open to all ages. This event will take place in 130 Nicholson Hall on LSUs campus. Contact Outreach Coordinator Olivia Crowell at the Department of Physics and Astronomy at LSU at 225-578-2261 or email [emailprotected] with questions. Find more information here.
Head to La Divina Italian Cafe on Wednesday, July 10, for an art reception celebrating art from St. James Place.
Guests can enjoy live music by Jeff Bajon along with select wines, ice-cold beer and hors doeuvres while chatting with the featured artists about their work. Featured artists include Dr. June Tuma, Betty Falgout and Audrey Walker.
The Art of St. James Place is from 6-8 p.m. This event is free and open to the public. La Divina Italian Cafe is at 3535 Perkins Road, Unit 360. Find more information here.
Jam out with local acts when Chelseas Live brings back The Stew, this Thursday, July 11.
The local music showcase will feature singer-songwriter McKenzie Knapps, metal band Pauldron, Rhinoceros and Libson Girls. Rock artist Cody Riker will headline the event and celebrate his latest album 4REAL.
Doors open at 7 p.m. and the show begins at 8 p.m. Tickets are $10 in advance and $15 at the door. This show is for those ages 18 and up. Chelseas Live is at 1010 Nicholson Drive. Find more information here.
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These Shortlisted Images From Astronomy Photographer of the Year Are Pure Fire – Gizmodo
Posted: at 6:52 pm
Every year, Greenwichs Royal Observatory considers photos of the cosmos for its Astronomy Photographer of the Year competition. The 16th rendition of the contest does not disappoint. From distant spinning galaxies to brilliant auroras on our very own planet, the entrants in this years competition show off everything the heavens have to offer.
If youre in the London area, you can see the shortlisted photos in person at the National Maritime Museum in Greenwich. But if youre not, you can check out the shortlisted finalists below.
The starbursts of color are the Geminid meteor shower as seen from La Palma, one of the Canary Islands. The Milky Way also appears in the background.
The galaxy NGC 6744 sits 30 million light-years from Earth, and resembles how our own galaxy would look from such a distance.
A beautiful combination of pinks, yellows, and greens illuminate the sky over Icelands Eystrahorn Mountain during a geomagnetic storm in December 2024.
This strikingly detailed image reveals the Suns surface. Towards the top left quarter of the Sun, a plasma filament that looks a bit like a whale swims across the stars surface.
An abandoned home in Namibias Namib Desert, with the Milky Way hanging above it, presents a stunning contrast. The shot reminds me a bit of the landscapes in Courage the Cowardly Doganyone else?
These rock formations are located in a caldera in the Canary Islands Teide National Park. Behind the formations is the arc of the Milky Way.
Per the title, the aurora above Icelands Arctic Henge resembles a bright green dragon.
The deep reds of the Aurora Australis beneath the arc of the Milky Way, as seen from New Zealands Castle Hill.
This trippy shot captures the reflection of light from various sources across the night sky, reflected in some of the 12,000 mirrors at a power station in China.
A volcanic crater in Japan, the Milky Way above it.
This filamentous blue structure is a part of the Vela supernova, which exploded roughly 11,000 years ago.
Octobers full moon is also called a Hunters Moon. In the foreground of the natural satellite is the International Space Station (bottom right).
A galaxy 11.75 million light-years away, sitting in the constellation Ursa Major.
The dwarf planet Ceres is seen here as four bright spots, transiting in front of the Blowdryer Galaxy (formally M100).
This eerie shot of a supernova afterglow gets its name from Edvard Munchs The Scream; indeed, the stellar remnants resemble a howling person.
The Pelican Nebulas dust and gas structures, seen through a telescope in Hungary.
The Martian landscape as seen by the Mars Reconnaissance Orbiter. The image abstracts the landscape to the point that the terrain looks like a chunk of some menacing creature.
A spellbinding shot of the Isaac Newton Telescope in the Canary Islands, with the Cygnus region of the Milky Way visible at top right.
This captivating photo from Namibia features a stone sculpture of a person in mid-stride.The Carina Nebulawhich the Webb Space Telescope imaged as one of its first science targetsis visible top right.
Behold Saturn, the ringed planet, accompanied by six of its moons. To the left, you can spot Rhea, Enceladus, and Mimas as tiny specks. Dione is visible at the bottom right, Titan at the top right, and Tethys is just about to disappear behind Saturn itself.
These are the remains of a jetty on Norfolks Snettisham Beach, under a long exposure of the stars in the night sky.
A sunspot is shown here erupting on the surface of the Sun. Sunspots are darker regions on the Suns surface associated with the stars magnetic field.
The luminous blue lights of the Pleiades, as seen from Nerpio, Spain.
Jupiter with its moons Io and Ganymede. Io is a compelling research target for scientists, given its desolate and volcano-covered landscape.
Heres another aurora reminiscent of a mythical flying serpent. This photo is in black and white, an interesting approach to one of the most famously vibrant natural phenomena on Earth.
This ominous shot portends doom for a galaxy (top left), threatened by CG4, a giant cloud of gas and dust in space.
This image, captured using a telescope at Chiles El Sauce Observatory, shows the incredibly flat M104, or Sombrero Galaxy, including the dust that permeates the object.
A composite image showing the transit of the ISS across the face of the Moon.
An iridescent rainbow of the Suns corona as it appears in altostratus clouds above the Himalayan mountains.
An arguably obligatory image of a total solar eclipse. This one was captured in Australia in April 2023; the image is made of seven superimposed photos that capture different states of the eclipse.
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Mars is bombarded by more meteorites than previously thought – Astronomy Magazine
Posted: at 6:52 pm
Credit: NASA/JPL-Caltech
Scientists have long wondered why more bowl-shaped craters from asteroid strikes havent been found on Mars, despite the Red Planet sitting next to the asteroid belt and its sparse atmosphere being just 1 percent as thick as Earths. A new study suggests roughly 300 basketball-sized meteorites pockmark Mars surface every year, raising previous estimates by five times.
The findings are based on data from NASAs InSight lander, which for over four years listened to Mars seismic shakes and probed the planets geological history. The researchers studied seismological data recorded by InSights onboard seismometer, which scientists say is capable of hearing the slightest rumbles on Mars. They found that there isnt a place on Mars that is more likely to be hit than any other place, says study lead author Natalia Wjcicka of the Imperial College London, adding that future robotic and crewed missions to Mars could benefit from these findings while selecting landing spots and base camps.
The new impact rate is five times higher than estimates published a decade ago and based on satellite images, rather than on-the-ground data. That suggests that we miss a lot of craters by just looking at the surface of the planet because we dont image all of Mars all the time, says Wjcicka.
Moreover, many craters left behind by such impacts have never been seen by orbiting satellites, the researchers found. We were certainly very excited, says Wjcicka. We almost didnt believe it.
The seismometer onboard InSight, called the Seismic Experiment for Interior Structure, or SEIS, recorded about 1,300 marsquakes during its four-year mission. The instrument by itself wasnt able to distinguish which rumbles were due to meteorites, or where on Mars they occurred. But a group of signals share similar properties, key of which is that most of their energy is above 4 hertz, consistent with a shallow source like a meteorite strike rather than a quake deep within Mars, says Wjcicka.
Between 2018 to 2022, InSight heard 70 so-called very high-frequency events, all of which were likely created by meteorite crashes, according to the new study, which was published last month in Nature Astronomy.
By studying the properties of these signals, Wjcicka and her team predict between 280 and 360 basketball-sized meteorites land across Mars each year and leave behind craters bigger than 26 feet (8 meters) in diameter. Although this crater size is within the range scientists can spot in satellite images, we dont have a systematic way that we take images of areas, says Wjcicka, so its difficult to associate craters with the events InSight heard. But [the signals] are similar enough to each other that at least more if not all of them could be impact related, but we dont have confirmation of that because we havent seen the craters.
Satellites dont capture all of Mars all the time, and often there arent repetitive images of the same region. This limits the amount of comparison scientists can do of a region before a meteorite strike versus after, when the crater or any material excavated by the meteorite could be spotted in images. The task is made harder by the fact that sifting through the images almost always requires a human eye, says Wjcicka.
It does take a lot of training from the human side to find those craters in the images, she says. The smaller it gets, the more youre likely to miss it.
Last month, a different team of scientists spotted eight football field-sized impact craters puncturing Mars surface that were not previously seen by satellites. Six were near InSights landing spot and two were among the largest ever spotted, suggesting the planet is getting hit much more frequently than we can see using imaging alone, Ingrid Daubar of Brown University in Rhode Island, who led the companion study, said in a statement.
Impacts this large are expected to occur only every few decades, perhaps even just once in a lifetime, Daubar said. But his team found they had occurred just 97 days apart. It could just be a crazy coincidence, but theres a really, really small likelihood that its just coincidence, he said. Whats more likely is that either the two big impacts are related, or the impact rate is a lot higher for Mars than what we thought it was.
Unlike Earth, Mars lacks active plate tectonics, the continually shifting chunks of crust that trigger earthquakes when they grind together. The planet rumbles from deep within nonetheless, primarily driven by the world shrinking and cooling
Conventionally, scientists use the number of craters as cosmic clocks to date a planets surface, with older surfaces pockmarked with more craters than younger ones. Because higher impact rates mean less time is needed to accumulate the same number of craters, better constraints of impact rates can help scientists fine-tune their gauges of how old the martian surface is. This, in turn, can reveal when the last major event that erased previous craters, such as a volcanic eruption, occurred on Mars.
And if the impact rate on Mars is different than thought, this is going to require us to rethink some of the models the science community uses to estimate the age of planetary surfaces throughout the entire solar system, Daubar said. And by understanding what happened on Mars, scientists can better understand the history of our own planet, he added.
This is important for understanding our solar system, whats in it and what the population of impacting bodies in our solar system looks like both as hazards to the Earth and also historically to other planets, said Daubar.
Related: Probe counts space rock impacts on Mars
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Astronomers find missing link in massive black hole formation – ScienceBlog.com
Posted: at 6:52 pm
Omega Centauri is a spectacular collection of 10 million stars, visible as a smudge in the night sky from Southern latitudes. Through a small telescope, it looks no different from other so-called globular clusters; a spherical stellar collection so dense towards the center that it becomes impossible to distinguish individual stars. But a new study, led by researchers from the University of Utah and the Max Planck Institute for Astronomy, confirms what astronomers had argued about for over a decade: Omega Centauri contains a central black hole. The black hole appears to be the missing link between its stellar and supermassive kinstuck in an intermediate stage of evolution, it is considerably less massive than typical black holes in the centers of galaxies. Omega Centauri seems to be the core of a small, separate galaxy whose evolution was cut short when it was swallowed by the Milky Way.
This is a once-in-a-career kind of finding. Ive been excited about it for nine straight months. Every time I think about it, I have a hard time sleeping, said Anil Seth, associate professor of astronomy at the U and co-principal investigator (PI) of the study. I think that extraordinary claims require extraordinary evidence. This is really, truly extraordinary evidence.
A clear detection of this black hole had eluded astronomers until now. The overall motions of the stars in the cluster showed that there was likely some unseen mass near its center, but it was unclear if this was an intermediate-mass black hole or just a collection of the stellar black holes. Maybe there was no central black hole at all.
Previous studies had prompted critical questions of So where are the high-speed stars? We now have an answer to that, and the confirmation that Omega Centauri contains an intermediate-mass black hole. At about 18,000 light-years, this is the closest known example for a massive black hole, said Nadine Neumayer, a group leader at the Max Planck Institute and PI of the study. For comparison, the supermassive black hole in the center of the Milky Way is about 27,000 light-years away.
Thepaperwas published in the journal Nature on July 11, 2024. Watch the research come to life on August 8, 2024, at 7:00 p.m. when Anil Seth will present these once-in-a-lifetime findings at the Clarke Planetarium IMAX theater.
A range of black hole masses
In astronomy, black holes come in different mass ranges. Stellar black holes, between one and a few dozen solar masses, are well known, as are the supermassive black holes with masses of millions or even billions of suns. Our current picture of galaxy evolution suggests that the earliest galaxies should have had intermediate-sized central black holes that would have grown over time, gobbling up smaller galaxies done or merging with larger galaxies.
Such medium-sized black holes are notoriously hard to find. Although there are promising candidates,there has been no definite detection of such an intermediate-mass black holeuntil now.
There are black holes a little heavier than our sun that are like ants or spiderstheyre hard to spot, but kind of everywhere throughout the universe. Then youve got supermassive black holes that are like Godzilla in the centers of galaxies tearing things up, and we can see them easily, said Matthew Whittaker, an undergraduate student at the U and co-author of the study. Then these intermediate-mass black holes are kind of on the level of Bigfoot. Spotting them is like finding the first evidence for Bigfootpeople are going to freak out.
Needle in an archival haystack
When Seth and Neumayer designed a research project to better understand the formation history of Omega Centauri in 2019, they realized they could settle the question of the clusters central black hole once and for all. If they found fast-moving stars around its center, they would have the proverbial smoking gun, as well as a way of measuring the black holes mass.
The arduous search became the task ofMaximilian Hberle, a doctoral student at the Max Planck Institute. Hberle led the work of creating an enormous catalogue for the motions of stars in Omega Centauri, measuring the velocities for 1.4 million stars by studying over 500 Hubble images of the cluster. Most of these images had been produced for the purpose of calibrating Hubbles instruments rather than for scientific use. But with their ever-repeating views of Omega Centauri, they turned out to be the ideal data set for the teams research efforts.
Looking for high-speed stars and documenting their motion was the proverbial search for a needle in a haystack, Hberle said. In the end, Hberle not only had themost complete catalogof the motion of stars in Omega Centauri yet, he also found seven needles in his archival haystackseven tell-tale, fast-moving stars in a small region in the center of Omega Centauri.
Uncovering a black hole
The seven stars move fast because of the presence of a concentrated nearby mass. For a single star, it would be impossible to tell whether it is fast because the central mass is large or because the star is very close to the central massor if the star is merely flying straight, with no mass in sight. But seven such stars, with different speeds and directions of motion, allowed the team to separate the different effects and determine that thereisa central mass in Omega Centauri, with the mass of at least 8,200 suns. The images do not indicate any visible object at the inferred location of that central mass, as one would expect for a black hole.
The broader analysis also allowed the team to narrow down the location of Omega Centauris central region at 3 light-months in diameter (on images, 3 arc seconds). In addition, the analysis provided statistical reassurance: A single high-speed star in the image might not even belong to Omega Centauri. It could be a star outside the cluster that passes right behind or in front of Omega Centauris center by chance. The observations of seven such stars, on the other hand, cannot be pure coincidence, and leaves no room for explanations other than a black hole.
An intermediate-mass black hole at last
Given their findings, the team now plans to examine the center of Omega Centauri in even more detail. The Us Seth is leading a project has gained approval to use the James Webb Space Telescope for measuring the high-speed stars movement towards or away from Earth, and there are future instruments (GRAVITY+ at ESOs VLT, MICADO at the Extremely Large Telescope) that could pinpoint stellar positions even more accurately than Hubble. The long-term goal is to determine how the stars accelerate: how their orbits curve. Following those stars once around their whole orbit, as in the Nobel-prize-winning observations near the black hole in the center of the Milky Way, is a project for future generations of astronomers, though. The smaller black hole mass for Omega Centauri means ten times larger time scales than for the Milky Way: orbital periods of more than a hundred years.
Background information The work described here has been published as M. Hberle et al., Fast-moving stars around an intermediate-mass black hole in Centauri in the journal Nature. The star catalog on which the work is based has been accepted for publication as M. Hberle et al., oMEGACat IIPhotometry and proper motions for 1.4 million starsin Omega Centauri and its rotation in the plane of the sky in the Astrophysical Journal.
Other authors include the Max Plank Institute of Astronomy researchers Antoine Dumont, Callie Clontz (also University of Utah), Anja Feldmeier-Krause (also University of Vienna) and Maria Selina Nitschai in collaboration with Andrea Bellini (Space Telescope Science Institute), Mattia Libralato (ESA and INAF Padova), Holger Baumgardt (The University of Queensland), Mayte Alfaro Cuello (Universidad Central de Chile), Jay Anderson (Space Telescope Science Institute), Nikolay Kacharov (Leibniz Institute for Astrophysics Potsdam), Sebastian Kamann (Liverpool John Moores University), Antonino Milone (University of Padova), Renuka Pechetti (Liverpool John Moores University) and Glenn van de Ven (University of Vienna).
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Astronomy Nights return to Oak Grove – Riverbank News
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Join in for a free event, Astronomy in the Park, on Saturday, July 13 at Shumway Oak Grove Regional Park, I-5 at Eight Mile Road, Stockton. The program is presented by The Stockton Astronomical Society, Oak Grove Docent Council, and San Joaquin County Parks.
View planets through giant telescopes after sunset. The July 13 program starts at 8:30 p.m. and features Mercury and M3, Star Cluster in Canes Venatici. There is no charge for the program but there is a $6 cash parking fee at the park.
Also, prior to the viewing, enjoy astronomy activities at the Nature Center until 8 p.m.
For more information, call 209-953-8814 or 209-953-8800.
Upcoming shows will feature: Aug. 10, 8 p.m., M8 and M20 (Lagoon Nebula, Trifid Nebula); Sept. 7, 7:25 p.m., Saturn, M13 (Star Cluster) and M57 (Ring Nebula). On Oct. 12, view Star Cluster in Hercules and the Dumbbell Nebula at 6:30 p.m.; Nov. 9 at 5 p.m., see Jupiter, Saturn, Venus and M31 (Andromeda Galaxy); Dec. 7, 4:45 p.m., see Saturn, Mars, M33 (Triangulum Galaxy).
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Heres how astronauts splash back to Earth – Astronomy Magazine
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The SpaceX Crew Dragon Freedom splashed down with four astronauts on October 14, 2022. Credit: NASA/u003c/strongu003e
For about 15 minutes on July 21, 1961, American astronautGus Grissomfelt at the top of the world and indeed he was.
Grissom crewed theLiberty Bell 7 mission, a ballistic test flight that launched him through the atmosphere from a rocket. During the test, he sat inside a small capsule and reached a peak of over 100 miles up before splashing down in the Atlantic Ocean.
A Navy ship, the USS Randolph, watched the successful end of the mission from a safe distance. Everything had gone according to plan, the controllers at Cape Canaveral were exultant, and Grissom knew he had just entered a VIP club as the second American astronaut in history.
Grissom remained inside his capsule and swayed on the gentle ocean waves. While he waited for a helicopter to take him onto the USS Randolphs dry deck, he finished recording some flight data. But then, things took an unexpected turn. An incorrect command in the capsules explosives system causedthe hatch to pop out, which let water flow into the tiny space. Grissom had also forgotten to close a valve in his spacesuit, so water began to seep into his suit as he fought to stay afloat.
After a dramatic escape from the capsule, he struggled to keep his head above the surface while giving signals to the helicopter pilot that something had gone wrong. The helicopter managed to save him at the last instant. Grissoms near-death escape remains one of the most dramatic splashdowns in history. But splashing down into water remains one of the most common ways astronauts return to Earth. I am aprofessor of aerospace engineeringwho studies the mechanisms involved in these phenomena. Fortunately, most splashdowns are not quite that nerve-racking, at least on paper.
Before it can perform a safe landing, a spacecraft returning to Earthneeds to slow down. While it is careening back to Earth, a spacecraft has a lot of kinetic energy. Friction with the atmosphere introduces drag, which slows down the spacecraft. The friction converts the spacecrafts kinetic energy to thermal energy, or heat.
All this heat radiates out into the surrounding air, which gets really, really hot. Since reentry velocities can be several times the speed of sound, the force of the air pushing back against the vehicle turns the vehicles surroundings into a scorching flow thats about 2,700 degrees Fahrenheit (1,500 degrees Celsius). In the case ofSpaceXs massive Starship rocket, this temperature even reaches3,000 degrees Fahrenheit (nearly 1,700 degrees Celsius).
Unfortunately, no matter how quickly this transfer happens, theres still not enough time during reentry for the vehicle to slow down to a safe enough velocity not to crash. So, the engineers resort to other methods that can slow down a spacecraft during splashdown.
Parachutes are the first option. NASA typically uses designs with bright colors, such as orange, which make them easy to spot. Theyre also huge, with diameters of over 100 feet, and each reentry vehicle usually uses more than one for the best stability. The first parachutes deployed, called drag parachutes, eject when the vehicles velocity falls below about 2,300 feet per second (700 meters per second).
Even then, the rocket cant crash against a hard surface. It needs to land somewhere that will cushion the impact. Researchers figured out early on that water makes an excellent shock absorber. Thus, splashdown was born.
Water has a relatively low viscosity that is, it deforms fast under stress and it has a density much lower than hard rock. These two qualities make it ideal for landing spacecraft. But the other main reason water works so well is because it covers 70% of the planets surface, so the chances of hitting it are high when youre falling from space.
The science behind splashdown is complex, asa long history proves.
In 1961, the U.S. conducted the first crewed splashdowns in history. These usedMercury reentry capsules.
These capsules had a roughly conical shape and fell with the base toward the water. The astronaut inside sat facing upward. The base absorbed most of the heat, so researchers designed a heat shield that boiled away as the capsule shot through the atmosphere.
As the capsule slowed and the friction reduced, the air got cooler, which made it able to absorb the excess heat on the vehicle, thereby cooling it down as well. At a sufficiently low speed, the parachutes would deploy.
Splashdown occurs at a velocity of about80 feet per second (24 meters per second). Its not exactly a smooth impact, but thats slow enough for the capsule to thwack into the ocean and absorb shock from the impact without damaging its structure, its payload or any astronauts inside.
Followingthe Challenger loss in 1986, when the space shuttle Challenger broke apart shortly after liftoff, engineers started focusing their vehicle designs on whats called thecrashworthiness phenomena or the degree of damage a craft takes after it hits a surface.
Now, all vehicles need to prove that they can offer a chance of survival on water after returning from space. Researchers build complex models, then test them with laboratory experiments to prove that the structure is sturdy enough to meet this requirement.
Between 2021 and June 2024, sevenof SpaceXs Dragon capsules performed flawless splashdowns on their return from the International Space Station.
On June 6, the most powerful rocket to date,SpaceXs Starship, made a phenomenal vertical splashdown into the Indian Ocean. Its rocket boosters kept firing while approaching the surface, creating an extraordinary cloud of hissing steam surrounding the nozzles.
SpaceX has been using splashdowns to recover the Dragon capsulesafter launch, with no significant damage to their critical parts, so that it can recycle them for future missions. Unlocking this reusability will allow private companies to save millions of dollars in infrastructure and reduce mission costs.
Splashdown continues to be the most common spacecraft reentry tactic, and with more space agencies and private companies shooting for the stars, were likely to see plenty more take place in the future.
This article is republished fromThe Conversationunder a Creative Commons license. Read theoriginal article.
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See Ten Awe-Inspiring Images From the Astronomy Photographer of the Year Contest – Smithsonian Magazine
Posted: at 6:52 pm
For generations, skywatchers and hobbyists around the world have admired the beauty of the cosmos.
The Astronomy Photographer of the Year contest channels that wonder into dazzling images, taken by amateur and professional astrophotographers as they vie for a 10,000 ($12,750) grand prize. The contest, arguably the biggest astrophotography competition in the world, is run by the Royal Observatory Greenwich in England and is in its 16th year.
This time around, photographers from 58 different countries submitted more than 3,500 awe-inspiring entries, in categories featuring our sun and moon, planets and comets, skyscapes, galaxies, stars and nebulas and other extraterrestrial sights. The 2024 Astronomy Photographer of the Year shortlist, unveiled on Tuesday, includes an aurora shaped like a dragon, a total solar eclipse and a breathtaking shot of the Milky Way in a desert sky.
A panel of art and astronomy experts judges the contest. The overall winners will be announced on September 12. Along with the cash prize, winning images will be displayed in an exhibition at the National Maritime Museum in London, which will go on view September 14.
Below is a selection of ten shortlisted photos that have stood out to the judges so far in this years competition.
In a phenomenon known as a coronal mass ejection (CME), the suns outer atmosphere launches magnetic fields and plasma mass into space. Sometimes, these charged particles collide with Earths magnetic field, producing intense auroras near the poles, visible from the ground. Geophysicists who study magnetic disturbances have created a nine-point scale that indicates how intense a disturbance is. This photo comes after a KP7-ranked storm, which is powerful enough to cause auroras and upset power systems.
That night, I think, was one of the most amazing that I have experienced in my nighttime photography outings, photographer Jose Miguel Picon Chimelis tells Royal Museums Greenwich (RMG) in a statement. There was a prediction of a KP7 storm, and I was excited as to what I might see. What I couldnt have imagined was seeing these colors in the sky; it was a spectacle that was difficult to describe.
A solar prominencea large, bright structure extending outward from the suns surfacelooks like a geyser in this close-up imagedemonstrating activity in the lower region of the suns atmosphere, known as chromospheric activity.
This giant stretches around thesuns limb for thousands of kilometers andis several times larger than Earth, photographer Miguel Claro notes to RMG. As comparison, its width is larger than the width of the rings of Saturn.
This capture is a still from a time-lapse of 248 images. Claro put these together into a 4k high-resolution solar movie comprising 1 hour and 20 minutes of spectacular photos. The image above is a selection from that movie.
Above an abandoned house and lone tree, the Milky Way lights up the sky during a Namib Desert night. The Namib Desert is one of the worlds best spots for stargazing, as it is sparsely populated and largely protected from light pollution, making it extremely dark.
Stefan Leibermann, who captured this image in Garub, Namibia, described to RMG the experience of getting the shot: In the middle of the Namib Desert, you can find an abandoned house, and right above it, the Milky Way rises. I put some lights in the house, set up my star tracker and seized the opportunity. Through a veil of clouds, halos around the stars created a dream-like effect.
Carina Letelier Baeza imaged this uniquely shaped aurora, which shined with intense red and green coloring throughout the night. The photographer tells RMG the lights look like a big dragon over rock pyramids.
Letelier Baeza snapped the photo at the Arctic Henge, located in one of Icelands most remote and northernmost villages. Designed like a huge sundial, the Arctic Henge casts shadows in precise locations between its arched gateways.
Capturing this image also took some luck with the weather. This site was the only place in Iceland with clear skies that night.
The Pleiades (also known as Messier 45 or the Seven Sisters) is an open star cluster that can be seen with the naked eye. Open clusters consist of similarly aged stars numbering from the tens to a few thousand, formed from the same molecular cloud. Mutual gravitational attraction holds the stars together.
At 444 light-years away, the Pleiades is one of the closest star clusters to Earth. The cluster, dominated by hot, blue, luminous stars formed over the last 100 million years, has only a few stars that can be seen without the aid of a telescopethough in total, it contains roughly 1,000.
Sndor Biliczki, who is newer to astrophotography, traveled to Spain to capture this image, to look for lower light pollution and better atmospheric conditions. The Pleiades is very popular among astrophotographers, but there are so many tiny details to be discovered in it that, for me, it was a tremendous experience to process, Biliczki tells RMG.
The picture above depicts the International Space Station (ISS) orbiting the Earth in the foreground, while the backdrop displays a 51 percent illuminated moon. The ISS is the largest space station ever built, maintaining an orbit with an average altitude of 250 miles. The ISS circles the Earth in roughly 90 minutes.
Kelvin Hennessy captured this photo from Gold Coast in Queensland, Australia, with the help of various apps to confirm the stations transit path across the moon.
Finding a suitable shooting location in a city was the most difficult part of the shoot, the photographer tells RMG. I used Google Earth and Google Street View to look for a suitable candidate with clear skies and parking along the very narrow transit corridor.
Located in the swan constellation Cygnus, the Pelican Nebula is a star-forming region roughly 30 light-years across, and its hydrogen gas actively emits light.
To capture this shot, Bence Toth used narrowband filters for image acquisition and created a color image with the Hubble Palette method. The Hubble Palette method is a recognizable coloring system for images, made famous by the Hubble Space Telescope, and it can often help viewers see more detail throughout space images.
The fine dust and gas structures really reminded me of mist on mountains hit by the rising sun, Toth tells RMG.
To astronomers, SNR stands for supernova remnant, which describes a lingering structure resulting from the explosion of a star. A supernova remnant consists of ejected materials and shock waves from the blast.
This object, called SNR G156.2+5.7, lies in the constellation Auriga, behind dark molecular clouds. This means we have to look at this supernova remnant through the dust clouds in deep space, photographer Bray Falls tells RMG.Luckily, there are enough breaks in the clouds to see an incredible structure.
Is this the cosmic sandworm of Arrakis from Dune or the terrifying Graboid from the film Tremors? Alessandro Ravagnin, one of the collaborators who captured this shot, says to RMG.
This image shows CG 4, a star-forming region in the southern Puppis constellation about 1,300 light-years from Earth. In it, dense molecular clouds can collapse to form stars. The galaxy in the top left corner is a spiral galaxy seen nearly edge-on. While it may look close, is actually 118 million light-years away.
A group of astrophotographerscalled the Shared Remote Astrophotography (ShaRA) teamtogether rented a telescope and took several images from El Sauce Observatory, Ro Hurtado, Chile. They voted on the best ones, then merged them into this image.
As many might remember, a total solar eclipse inspired fanfare and viewing parties across North America earlier this year. However, total solar eclipses, which happen when the moon passes directly between the sun and Earth, blocking the face of the sun completely, occur somewhere on our planet about every 18 months.
This shot was taken in Exmouth, Western Australia, which experienced 62 seconds of totality during a hybrid solar eclipse in April 2023. The image showcases the suns corona, its pink chromosphere and Bailys beads, which are narrow openings of sunlight that shine through due to the moons rugged landscape.
With this collage, I wanted to show the beauty of the corona, photographer Gwenal Blanck tells RMG. I superimposed seven pictures for the background and six others for the chromosphere and prominences.
A total solar eclipse is one of the most beautiful spectacles nature can offer. Everyone should experience it at least once in their lifetime, Blanck adds.[Totality] seems short, but it was worth every penny and effort to get there. Pictures dont do justice to this wonder.
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20 things to see on the Moon: An observers guide to lunar names – Astronomy Magazine
Posted: at 6:52 pm
All photos by Robert Reeves
For over 400 years, legions of lunar cartographers have been surveying the surface of the Moon first by telescope and then by spacecraft charting and naming its features.
The resulting lunar map is constantly evolving. Over time, new names are added while existing names are dropped or changed after research shows a feature to be of a different geological type. The International Astronomical Union (IAU) establishes guidelines for lunar names; their approval is required to make a name official. These efforts keep scientific order in how we identify features and navigate the face of the Moon.
But our relationship with the Moon is not all science and regulated order. It is human nature to create endearments for the things we love. Deep-sky observers bestow unofficial nicknames to many, like the Lagoon (M8), Rosette (NGC 22379/44), and California (NGC 1499) nebulae. Luna is no exception; it too has its share of fanciful unofficial names for its features.
Human whimsy often trumps science in these names, such as the Cobra Head at the volcanic source that once fed flowing lava into Schrters Valley. During the Apollo expeditions, many astronauts made their mark on the Moon by giving features unofficial names, such as Jim Lovells famous Mount Marilyn, which he named after his wife during Apollo 8. While some of these popular lunar names are eventually rubber-stamped by the IAU (including Mount Marilyn in 2017), others do not appear on a map, but persist by general acceptance.
The selection of unofficial names presented here include some modestly proposed by the author. Whether they stick in lunar lexicon depends on the whims of Moon lovers everywhere.
Lunar nicknames bring life and familiarity to a stark and unforgiving landscape that is nonetheless appealing because of its alien strangeness. For the avid astronomer, the names here should become as familiar as the terms of endearment that we apply to the gems of the Milky Way and beyond.
Named by: Robert Reeves
Official name: Cleomedes, Burckhardt, Geminus, and Messala craters
Size: 81 miles (131 km), 34 miles (54 km), 51 miles (82 km), 76 miles (122 km)
Coordinates: centered at 33.5 N, 57.8 E
Feature named after: Appearance of sequential steppingstones
The linear string of four large craters extending north from Mare Crisium (at far lower right in this image) is reminiscent of steppingstones leading off to an adventuresome place. Each step is a leap through time, as none of these craters are the same age. The southernmost is flat-floored Cleomedes, an 81-mile-wide (131 kilometers) Nectarian-epoch crater that dates back 3.85 billion to 3.95 billion years ago. The smaller and slightly younger Imbrian-epoch crater Burckhardt follows. Farther north the sharper form of Geminus is even younger, dating to the Eratosthenian epoch. The final steppingstone, massive, ruined, pre-Nectarian-epoch Messala, is the oldest.
Named by: Unknown
Official name: Furnerius A, Stevinus A
Size: 7 miles (11 km), 5 miles (8 km)
Coordinates: 33.0 S, 54.7 E
Feature named after: Appearance of oncoming car headlights
Satellite craters usually do not draw the casual observers attention, but the brilliant, similar-sized Furnerius A and Stevinus A are an exception. Both young Copernican-epoch craters display disproportionately bright ray systems. The brilliant craters bracket the 45-mile-wide (72 km) Stevinus on the Moons southeast quadrant, creating the illusion of approaching car headlights.
Named by: Robert Reeves
Official name: Meton, Meton C, D, E
Size: 124 miles (200 km)
Coordinates: 72.6 N, 20.0 E
Feature named after: Appearance of a four-leaf clover
The merged forms of craters Meton C, D, and E overlaying Meton Crater on the northern polar landscape create a four-leaf clover shape representing a lunar good-luck charm. The interiors and rims of all four pre-Nectarian-epoch craters were buried by the wave of ejecta thrown from the Imbrium Basin impact 3.85 billion years ago, forming a common floor lying 5,000 feet (1,500 meters) below the surrounding territory.
Named by: Unknown
Official name: Rupes Liebig
Size: 90 miles (145 km)
Coordinates: 45.9 W, 25.1 S
Feature named after: Scarp with the same name
Lengthy Rupes Liebig arcs along the western shore of Mare Humorum and descends 2,300 feet (700 m) to the mare floor. The 6-mile-wide (9 km), 5,600-foot-deep (1,700 m) crater Liebig F lies atop the scarp and inspires the unofficial designation of the Liebig Wall.
Named by: Robert Reeves
Official name: None
Size: 6 miles (10 km)
Coordinates: 22.0 N, 55.5 E
Feature named after: Resembles a waterfall cascading down a mountainside
A bright splash of light-colored material ejected from a 0.8-mile-wide (1.3 km) craterlet on a mountainside on the northern rim of Mare Crisium looks almost as if it were a waterfall cascading down to the plain below. This bright, white spot can be found by following the northward arc of the craters Picard, Pierce, and Swift on the western side of Crisium. The spot has been reported to be a transient lunar event, as its reflectivity is variable and dependent on the Sun illumination angle, as seen in a comparison of these two images. The physical feature, however, is permanent. While the spot has no official name, Rik Hill, now retired from the University of Arizona, published an analysis of it thus, it is referred to as Hills Waterfall.
Named by: Robert Reeves
Official name: Lamont
Size: 52 miles (83 km)
Coordinates: 5.1 N, 23.3 E
Feature named after: Spiderlike appearance
First charted as a ghost crater on western Mare Tranquillitatis, Lamont is now regarded as a small ghost basin due to the 84-mile-wide (135 km) outer ring surrounding it. Lamont contains a spiderlike structure consisting of a system of lengthy radial wrinkle ridges that rise between 330 and 1,000 feet (100 and 300 m) above their surroundings. These form the legs of the spider.
Named by: Robert Reeves
Size: 44 miles (70 km)
Coordinates: 50.2 N, 20.1 E
Feature named after: Appearance of the letter S under sunset illumination
The apparition of the letter S appears for several hours at sundown on the eastern flank of Aristoteles Crater. The S is a combination of the northern rim of 19-mile-wide (30 km) Mitchell Crater, protruding from under Aristoteles eastern rim, and the swirl of topography north of Mitchell.
Named by: Unknown
Official name: Linn A 1
Size: 22 miles (35 km)
Coordinates: 30.4 N, 10.1 E
Feature named after: Appearance of a Valentines heart
The volcanic dome Linn A 1, just right of center in this image, rises 1,000 feet (300 m) above western Mare Serenitatis and is topped by half a dozen smaller volcanic domes, some capped with a small caldera. The rounded pancake-shaped dome resembles a classic Valentines heart.
Named by: Robert Reeves
Official name: None
Size: 93 miles (150 km)
Coordinates: 10.5 N, 6.8 E
Feature named after: Heart-shaped appearance
Some 370 miles (600 km) south of Valentine Dome lies another heart-shaped feature: the dark volcanic-ash-dusted mountains north of Rima Hyginus on Mare Vaporum, which reach 3,300 feet (1,000 m) in elevation. The mountains have no official name, but the overall appearance of the rugged region prompts the unofficial designation of the Heart of the Moon.
Named by: Unknown
Official name: None
Size: 68 miles (110 km)
Coordinates: 25.4 S, 1.0 E
Feature named after: Appearance of the letter X
As the First Quarter sunrise terminator crosses the merged rims of the adjacent craters Purbach, La Caille, and Blanchinus, they protrude in an X-shaped pattern that catches the first rays of sunrise and remains visible for about four hours.
Named by: Unknown
Official name: Hills: none; Tadpole: Reiner Gamma
Size: Hills: 171 miles (275 km); Tadpole: 124 miles (200 km)
Coordinates: Hills: 12.6 N, 53.9 W; Tadpole: 7.6 N, 58.6 W
Feature named after: Hills: nearby crater Marius; Tadpole: resemblance to a frog tadpole
The Marius Hills are the unofficial name for the 262 individual mounds on a 27,000-square-mile (70,000 square km) region of Oceanus Procellarum west of the crater Marius. Although casually called hills, the features are volcanic domes and cinder cones. Reiner Gamma, located west of the Marius Hills and affectionately known as the Tadpole, gets its nickname from its resemblance to this stage in a frogs life cycle. This feature possesses no vertical relief, does not cast a shadow, and is officially classified as an albedo feature.
Named by: Straight Wall: Birt and Lee (1865); Ancient Thebit: Chuck Wood
Official name: Straight Wall: Rupes Recta; Ancient Thebit: none
Size: Straight Wall: 72 miles (116 km); Ancient Thebit: 105 miles (170 km)
Coordinates: 21.7 S, 7.7 W
Feature named after: Straight Wall: Linear appearance; Ancient Thebit: Proximity to Thebit Crater
Rupes Recta is a lengthy linear feature known by the beloved name of Straight Wall (a rough translation of its Latin name). It is also known as Huygens Sword in honor of 17th-century astronomer Christiaan Huygens, who studied the feature. The curved exposed crater rim at the southern end of Rupes Recta is also known as the Stags Horn. Straight Wall lies in an unnamed ghost crater marked by a horseshoe-shaped bay east of the Wall and the circular wrinkle ridges west of it. This crater was unofficially designated Ancient Thebit by Chuck Wood after the nearby, younger Thebit Crater.
Named by: Chuck Wood
Official name: None
Size: 13 miles (21 km)
Coordinates: 47.8 N, 0.3 W
Feature named after: Two mountains guarding a narrow gorge
The mouth at the western end of the Alpine Valley (Vallis Alpes) slashing through the lunar Alps (Montes Alpes) funnels from 13 miles (21 km) across down to a gorge just 660 feet (200 m) wide at the valleys entrance. The narrow channel is bounded by a northern massif that rises 6,500 feet (2,000 m), while the southern massif rises 8,200 feet (2,500 m) above the plains of Mare Imbrium. Chuck Wood unofficially named the twin mountains the Guardians.
Named by: Unknown
Official name: Tycho rays
Size: 447 miles (720 km)
Coordinates: 32.8 S, 19.5 W
Feature named after: Parallel placement, akin to railroad tracks
Tycho Craters two prominent northwestern ray streamers do not diverge from a point within Tycho, and each ray is tangential to the craters rim. This unusual parallel nature prompted the unofficial designation of the Railroad Tracks.
Named by: Robert Reeves
Official name: Flamsteed P, Wichmann R
Size: 62 miles (100 km), 40 miles (64 km)
Coordinates: 4.5 S, 40.7 W
Feature named after: Ghost crater locations
The Moons large basins were once dotted with craters, before volcanic flooding flooded many of them and created the maria. Some remain visible as ghost craters with their crowns protruding above the mare basalt. Those on southern Oceanus Procellarum are collectively known as the Ghosts of Procellarum.
Named by: Unknown
Official name: None
Size: 44 miles (70 km)
Coordinates: 16.8 S, 31.5 W
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20 things to see on the Moon: An observers guide to lunar names - Astronomy Magazine
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A middleweight black hole has been spotted for the first time in our galaxy – Science News Magazine
Posted: at 6:52 pm
For the first time, astronomers have spotted a middleweight black hole in the nearby universe. The discovery could help solve the riddle of how even heftier black holes form and grow up with their host galaxies.
The black hole, which sits about 16,000 light-years from Earth in the center of star cluster Omega Centauri, is at least 8,200 times as massive as the sun, putting it squarely in a rare category of intermediate-mass black holes, researchers report July 10 in Nature.
Most of the black holes astronomers have detected fall into one of two categories. Theyre either stellar-mass black holes, with masses up to about 100 times that of the sun, or supermassive black holes, which reside in the centers of galaxies and clock in at hundreds of thousands to billions of times the mass of the sun.
Black holes with masses in the middle could help span the gap between the two categories and explain how the supermassive ones got so big. But these black holes are a little like Bigfoot: There have been many claimed sightings, but most turn out not to be real (SN: 2/8/17).
Theres this rather wide mass range, between 100 and 100,000 solar masses, where there are only very few detections, says astronomer Maximilian Hberle of the Max Planck Institute for Astronomy in Heidelberg, Germany. Its interesting to find out whether they are there, and we just dont see them because they are hard to detect. Or maybe theres also a reason why they dont exist at all.
One reason to think midsized black holes should exist is because the supermassive black holes astronomers have spotted in the early universe didnt have time to grow so big if they were just eating gas and stars like black holes do today (SN: 1/18/21). If those black holes grew from mergers of intermediate-mass seeds, that could solve the puzzle (SN: 6/2/23).
Its like a missing link that is needed to explain the existence of the supermassive black holes, says Texas-based astronomer and data scientist Eva Noyola, who was not involved in the new work. If its proven that [intermediate-mass black holes] happen in dense stellar clusters, you have a solution there thats pretty elegant and simple.
So astronomers have been hunting for midsize black holes for decades, and searching Omega Centauri specifically since at least 2008. As the most massive cluster of stars in the Milky Way, its a relatively easy spot to search, and it may be the remnant core of another galaxy that merged with the Milky Way about 10 billion years ago (SN: 11/1/18).
Its basically a galactic nucleus frozen in time, says study coauthor Nadine Neumayer, also of the Max Planck Institute for Astronomy. Its black hole could be representative of all small galaxies black holes 10 billion years ago. It tells us immediately something about the seed mass for black holes.
But previous studies left it unclear whether Omega Centauri hosted a single medium-size black hole, or a bunch of smaller black holes close together.
Using 20 years of Hubble Space Telescope observations, Hberle and colleagues tracked the motions of 1.4 million individual stars in the cluster and searched for stars moving faster than expected.
The team found seven stars zipping around the innermost regions of the cluster at speeds between 66 and 113 kilometers per second speeds that should have rocketed the stars out of the cluster altogether. The only way those stars could remain in the cluster is if a single massive object is holding them close, the team concludes.
The observations of superfast stars, combined with other observations through the years, should resolve the debate about the black hole in Omega Centauri, says Noyola, who was on the team that first claimed to see the black hole in 2008 and faced skepticism when they reported the result.
It wasnt until over a decade later that astronomers nabbed undeniable evidence of an intermediate mass black hole. The first solid detection came from the LIGO gravitational wave observatory, which recorded ripples in spacetime shaken off after two smaller black holes merged to form a single black hole with about 142 solar masses (SN: 9/2/20). But that collision occurred about 17 billion light-years from Earth, making it challenging to study.
Omega Centauris black hole has two advantages over that one, from an astronomers perspective: Its in our galactic neighborhood, and astronomers can continue to observe it. Hberle and his colleagues are planning to use the James Webb Space Telescope, or JWST, to get more information on the orbiting stars speeds, which will let them put better limits on the black holes mass.
Another group, led by astrophysicist Oleg Kargaltsev at George Washington University in Washington, D.C., is using JWST to look for light emitted by super-hot gas flowing into the black hole.
It will be a completely independent, very different method of proving that there is an intermediate-mass black hole, Kargaltsev says.
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A middleweight black hole has been spotted for the first time in our galaxy - Science News Magazine
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The Sky This Week from July 5 to 12: Saturn hides Titan from view – Astronomy Magazine
Posted: at 6:52 pm
Friday, July 5 Earths orbit around the Sun is not perfectly circular, such that our planet sits marginally farther from the Sun in July and closer to it in January. Today, Earth reaches aphelion, that farthest point from the Sun, at 1 A.M. EDT. At that time, we are 94.5 million miles (151 million kilometers) from our star.
New Moon occurs this evening at 6:57 P.M. EDT, which is great news for those in the Northern Hemisphere hoping for a look at Comet 13P/Olbers, which is low but observable after sunset. An hour after sunset, the comet is 20 high in the northwest. It was recently recorded glowing at magnitude 6.7, great for larger binoculars or a small scope. For a signpost, you can use the magnitude 4 star 10 Ursae Majoris, which sits just less than 0.5 to the comets southwest.
Olbers is located in the constellation Lynx, just under the front feet of the Great Bear Ursa Major. As darkness falls, youll see the Big Dipper standing on its bowl with the handle pointing straight up appear higher in the northwest, well above the comets position. Much closer to the horizon and setting quickly is Cancer the Crab, carrying the famous open cluster M44. Swing your binoculars or scope down to see if you can catch the cluster in the 90 minutes or so after sunset, before it disappears below the horizon.
The dark, moonless skies will also allow observers to easily catch the dwarf planet 1 Ceres glowing at magnitude 7.3 as it reaches opposition in Sagittarius the Archer tonight at 8 P.M. EDT. Check out last Fridays entry for more details on how to spot it, or tune in later this week, when well stop back to take a look.
Sunrise: 5:38 A.M. Sunset: 8:32 P.M. Moonrise: 4:51 A.M. Moonset: 8:56 P.M. Moon Phase: New *Times for sunrise, sunset, moonrise, and moonset are given in local time from 40 N 90 W. The Moons illumination is given at 12 P.M. local time from the same location.
Saturday, July 6Early-morning observers can catch two of Jupiters moons crossing the giant planet with their shadows this morning, although what youll see depends on your location.
The gas giant rises in central Taurus around 3:15 A.M. local daylight time. Those on the East Coast and in the Midwest can catch the passage of Europas shadow across the disk, moving from east to west, visible as the planet is rising in these regions. Around 4:45 A.M. EDT, Europa itself moves onto the disk, again from the east moving west. Io (closer) and Callisto lie farther east, while Ganymede sits alone to the planets west.
Ios shadow slips onto the disk around 5:15 A.M. CDT after sunrise in the Eastern time zone and as twilight is brightening the sky in the Midwest. Europas shadow is now gone and Europa is approaching the western limb of the planet. Io follows its shadow just under an hour later, shortly after 5 A.M. MDT, and Europa slides off the disk just over 10 minutes later, at 5:12 A.M. MDT.
Sunrise: 5:38 A.M. Sunset: 8:31 P.M. Moonrise: 5:55 A.M. Moonset: 9:39 P.M. Moon Phase: Waxing crescent (1%)
Sunday, July 7The Moon passes 3 north of Mercury at 3 P.M. EDT. You can catch the pair, along with bright Venus, in the evening sky shortly after sunset though youll need to be quick.
Some 20 minutes after sunset, Venus is just 2 high in the west. Youll need a clear horizon to spot it; an observing location a bit higher than your surroundings will help as well. The planet glows a bright magnitude 3.9, which should help you spot it. Through a telescope, Venus appears fully lit (99 percent) and spans 10.
To the upper left of Venus are Mercury and the Moon; our satellite is a delicate 5-percent-lit crescent hanging 3 above Mercury. The tiny planet glows at magnitude 0.2 and should pop out of the growing twilight. Youll have longer to observe it, as it sits 10 high at this time. With the aid of a telescope, youll note that Mercury is only 67 percent lit and appears a little more than half the width of Venus, about 6 on the sky.
Mercury is roughly 1.5 east of M44 if you werent able to observe it on Friday, you might be able to catch the open cluster tonight, as its a bit higher above the horizon sooner after sunset though the sky is also brighter. Binoculars or a telescope will certainly bring it out long before the sky is dark enough to see much with the naked eye.
Sunrise: 5:39 A.M. Sunset: 8:31 P.M. Moonrise: 7:02 A.M. Moonset: 10:13 P.M. Moon Phase: Waxing crescent (3%)
Monday, July 8 Saturn is rising around local midnight and presents a stunning sight with its rings nearly edge-on. The planet is currently tilted just 2 with respect to our line of sight; this tilt will increase over the next few months before decreasing again for 2025s ring-plane crossing.
Located in Aquarius, Saturn glows at magnitude 0.9 and is easy to zero in on with a telescope. Thats exactly what youll want to do this morning to catch the planets largest moon, Titan, passing behind the disk and disappearing in an occultation. The event is visible in the eastern two-thirds of the U.S.; only those in the Pacific time zone wont be able to watch it.
Titan is approaching the planet from the west as it rises; the large moon draws closer to the limb, finally disappearing around 2:40 A.M. EDT. At the same time, those with large scopes (10 inches) and video-capture systems may notice the smaller moon Mimas transiting the planets disk with its shadow. Mimas is moving from east to west, led by the shadow, passing in front of Saturns south polar region. Additional moons Enceladus and Tethys are hanging out just east of the eastern edge of the rings, while Dione and Rhea are to the west. These moons are all 10th magnitude or fainter, so may not be easily picked up in smaller scopes.
Sunrise: 5:40 A.M. Sunset: 8:31 P.M. Moonrise: 8:08 A.M. Moonset: 10:40 P.M. Moon Phase: Waxing crescent (8%)
Tuesday, July 9 This evening, turn your eyes eastward as the constellation Aquila the Eagle climbs in the sky. The constellation is perhaps best known for its bright star Altair, which serves as one point in the famous Summer Triangle asterism. But Aquila is home to numerous deep-sky objects, including our target for tonight: NGC 6709, also known as the Flying Unicorn.
Located in the far western region of Aquila, near its border with Ophiuchus, this open cluster glows at magnitude 6.7 and spans about 15 (or ) on the sky. You can find it by skimming about 5 southwest of 3rd-magnitude Zeta () Aquilae.
NGC 6709 lies some 3,500 light-years away and contains a few hundred stars. Astronomers believe it is about 140 million years old. It is called the Flying Unicorn because some observers think its shape is akin to that of the mythological beast. What do you think? In the image above, the unicorn is facing to the right. Note that your telescope may flip or rotate the image you see compared to the one here.
Sunrise: 5:40 A.M. Sunset: 8:30 P.M. Moonrise: 9:13 A.M. Moonset: 11:04 P.M. Moon Phase: Waxing crescent (14%)
Wednesday, July 10 If youve got a larger scope (8 inches), tonights target should be on your list: the 9th-magnitude galaxy NGC 4631, also called the Whale Galaxy. Youll find the constellation Canes Venatici beneath (to the left of) the Big Dippers handle in the north tonight before midnight. NGC 4631 is located about halfway on a line drawn between Cor Caroli (Canes Venaticis alpha star) and Gamma () Comae Berenices to its southwest. The galaxy itself is 6.5 southwest of Cor Caroli.
Measuring about 15 along its longest side, the Whale Galaxy is an edge-on spiral with a bright center and mottled arms. Its shape has been distorted by a nearby satellite galaxy, NGC 4627, which itself has been heavily warped by the interaction. You may even be able to spot 12th-magnitude NGC 4627, some 2.5 northwest of the larger galaxy.
The celestial cetacean also has another companion: 10th-magnitude NGC 4656, also called the Hockey Stick Galaxy. This sits just 0.5 east-southeast of the Whale Galaxy and short-focal-length telescopes will show both in the same field of view. Its heavily distorted shape also speaks to interactions with the Whale.
Sunrise: 5:41 A.M. Sunset: 8:30 P.M. Moonrise: 10:14 A.M. Moonset: 11:25 P.M. Moon Phase: Waxing crescent (21%)
Thursday, July 11 Dwarf planet 1 Ceres is passing near the globular cluster M54 in Sagittarius the Archer. You can catch the pairing tonight in the south a few hours after sunset, as the Teapot asterism stands about 20 above the horizon (depending on your observing location, of course).
Ceres is near magnitude 2.6 Zeta Sagittarii, which links the base of the handle with the teapots body. With binoculars or a telescope, simply center on Zeta and then swing your view about 1 west of the star to spot the seventh-magnitude main-belt world.
M54 is just 1 southwest of Ceres, forming a triangle together with the dwarf planet and Zeta Sag. The globular cluster shines at magnitude 7.6 roughly the same brightness as Ceres, though the compact ball of stars spans about 12 in diameter. Located nearly 90,000 light-years away, M54 is likely not one of the Milky Ways globulars at all, but instead belongs to the Sagittarius Dwarf Elliptical Galaxy, or SagDEG. This small satellite galaxy of the Milky Way was not discovered until 1994.
Ceres will swing closer to M54 over the next few days; it will stand due north of the cluster on the evening of the 15th.
Sunrise: 5:42 A.M. Sunset: 8:29 P.M. Moonrise: 11:14 A.M. Moonset: 11:44 P.M. Moon Phase: Waxing crescent (29%)
Friday, July 12The Moon reaches apogee, the farthest point from Earth in its orbit, at 4:11 A.M. EDT, when it will sit 251,259 miles (404,362 km) away.
Mars and Uranus are drawing close together in the early-morning sky; they will pass within 0.6 of each other on the 15th. You can check their progress today in the two hours or so before sunrise, as the pair climbs in the eastern sky. Both are located in far western Taurus, to the right of the Pleiades star cluster. First-magnitude Mars is visible to the naked eye about 8 southwest of the cluster. The Red Planets disk spans some 6 on the sky, currently the same apparent size as Mercury.
Once youve found Mars, youll need binoculars or a telescope to readily spot magnitude 5.8 Uranus. The distant ice giant sits just over 2 northeast of Mars and will appears as a flat gray star. Over the next few days, Uranus will appear to stay put as Mars draws closer, passing due south of the ice giant next week on Monday. Well certainly highlight the event, so check back for details then!
Sunrise: 5:42 A.M. Sunset: 8:29 P.M. Moonrise: 12:13 P.M. Moonset: Moon Phase: Waxing crescent (38%)
Sky This Week is brought to you in part by Celestron.
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The Sky This Week from July 5 to 12: Saturn hides Titan from view - Astronomy Magazine
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