Ephemeris: 07/15/2024 – When planets go rogue

July 15, 2024 Comments off

This is Ephemeris for Monday, July 15th. Today the Sun will be up for 15 hours and 13 minutes, setting at 9:25, and it will rise tomorrow at 6:12. The Moon, 2 days past first quarter, will set at 1:40 tomorrow morning.

We all know that there are stars and there are planets and planets orbit stars, right? Well maybe not. Astronomers have recently discovered planets that don’t orbit stars. They float free in interstellar space. They are called rogue planets. There seems to be two ways to produce a rogue planet. The first way is to have the planet ejected from a star system through gravitational interaction with other planets especially big ones like Jupiter. Also, it appears that rogue planets can form like stars, and have protoplanetary discs. Or proto-moon disks? They can be discovered by the infrared light they give off, or by gravitational microlensing of a star that passes directly behind them.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EDT, UT–4 hours). They may be different for your location.

Addendum

This is a NASA "travel poster" for exoplanet PSO J318.5-22
This is a NASA “travel poster” for exoplanet PSO J318.5-22. It is a rogue planet seven times the mass of Jupiter and shines a dull red because it’s only 12 million years old and still hot from the heat of formation. It is considered a brown dwarf, still a planet but with not enough mass to become a star. So the night time revelers shown in this travel poster would be doing so on the space stations shown orbiting it.
Categories: Ephemeris Program, Exoplanets Tags: ,

Ephemeris: 07/12/2024 – Star Party tomorrow night at Sleeping Bear Dunes National Lakeshore

July 12, 2024 Comments off

This is Bob Moler with Ephemeris for Friday, July 12th. Today the Sun will be up for 15 hours and 17 minutes, setting at 9:27, and it will rise tomorrow at 6:10. The Moon, 1 day before first quarter, will set at 12:42 tomorrow morning.

Tomorrow night, Saturday, July 13th, the Sleeping Bear Dunes National Lakeshore will team up with the Grand Traverse Astronomical Society to host a star party at the Dune Climb from 9 to 11 PM or later. It won’t be a star party only, because the featured attraction will be the first quarter Moon. To my mind, this is the best time to view the Moon, showing its craters with deep shadows near the terminator or sunrise line which crosses the Moon slowly over the month. There are no planets out in the evening, but we do have some interesting stars to look at besides the Moon. And the bright International Space Station will be seen moving from west to northeast, passing through the bowl of the Big Dipper around 10:28 pm.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EDT, UT–4 hours). They may be different for your location.

Addendum

Annotated Moon Chart
The Moon it would appear in telescopes tomorrow night at the star party. Different telescopes will show the Moon in different orientations, either right side up or upside down or a mirror image. This is a right side up image. Created using Stellarium, LibreOffice Draw, and GIMP.

Translations of some lunar feature names according to Virtual Moon Atlas

Mare Crisium – Sea of Crises
Mare Fecunditatis – Sea of Fruitfulness
Mare Frigoris – Sea of Cold
Mare Imbrium – Sea of Showers
Mare Nectaris – Sea of Nectar
Mare Serenitatis – Sea of Serenity
Mare Tranquillitatis – Sea of Tranquility
Mare Vaporum – Sea of Vapors
Montes Alpes – Alps Mountains
Montes Apenninus – Apennines Mountains
Craters are named for persons, real or otherwise.

Categories: Astronomical Event, Ephemeris Program, GTAS Outreach Event, Star Party, The Moon Tags: ,

Ephemeris: 07/11/2024 – Low energy routes to get to the Moon

July 11, 2024 Comments off

This is Ephemeris for Thursday, July 11th. Today the Sun will be up for 15 hours and 19 minutes, setting at 9:27, and it will rise tomorrow at 6:09. The Moon, 2 days before first quarter, will set at 12:26 tomorrow morning.

Back in the Apollo days when we sent people to the Moon, the trip out was only three days. The latest generation of unmanned probes to the Moon sent by the United States and other countries can take days, weeks, or even months to reach the Moon, so what’s going on? These are robot probes, needing little power. Humans however are high maintenance. Even when they’re doing nothing they are breathing, eating, and using resources. So when humans are aboard you have got to get there fast. Also, many of these probes are CubeSats, no bigger than a breadbox*. They must get into orbit of the Moon with very little thrust other than that of the rocket that launched them. They can go out as far as a million miles away before falling back to the Moon.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EDT, UT–4 hours). They may be different for your location.

* OK, I’m an old guy, the modern size comparison would be a microwave.

Addendum

An example of a low energy trajectory to the Moon
Here’s an example of a low energy trajectory to the Moon taken by the two Grail spacecraft back in 2011. The two spacecraft were launched on the same rocket, a ULA Delta II vehicle and were sent out in the direction of the Sun and maneuvered to separate themselves so that they would arrive at the Moon a day apart. This was done by various trajectory correction maneuvers. The spacecraft headed out toward the Earth Liberation Point 1, which is also called the Sun-Earth Lagrangian point 1 or L1. This is a way to get to the Moon with a minimum of additional energy to drop into orbit around it. It took the spacecraft about 3 1/2 months to arrive at the Moon. The word open refers to the trajectory at the opening of the several day long launch window. Credit NASA/JPL.

Categories: Concepts, Ephemeris Program, Space Flight, The Moon Tags: , , , ,

Ephemeris: 07/10/2024 – Where are the naked-eye planets this week?

July 10, 2024 Comments off

This is Ephemeris for Wednesday, July 10th. Today the Sun will be up for 15 hours and 20 minutes, setting at 9:28, and it will rise tomorrow at 6:08. The Moon, 3 days before first quarter, will set at 12:10 tomorrow morning.

Let’s find out where the naked-eye planets have wandered off to this week. Venus is too close to the direction of the Sun to be easily seen, it will set at 10:07 pm in the west-northwest below and right of Mercury. That elusive planet just might be seen very low in the west-northwest by 10 pm or so. By 5:15 tomorrow morning, or about 50 minutes before sunrise, Saturn will be in the south, Mars will be lower in the east, and Jupiter will below it in the east-northeast. Mars is closing in on Jupiter and will pass it on August 14th. Saturn may look disappointing in telescopes this year since rings are nearly edge on and appear almost as a line through the planet. It will rise at 12:09 am, Mars at 2:34 am, and Jupiter at 3:28 am.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EDT, UT–4 hours). They may be different for your location.

Addendum

This is an ephemeris of the Sun Moon and naked eye planet positions for today and tomorrow, July 3rd and 4th 2024. Some of the columns are self-explanatory, others not. The transit column is the time that the body crosses the meridian and is due south. Elong, for elongation, is the angle between the Sun and that body. RA is right ascension, which is the object’s east-west position on the celestial sphere. Dec is declination which is the north-south position of the object on the celestial sphere. The time of the positions is 8 pm EDT, (0 hr UT the next date). R is the distance of that object from the Sun in astronomical units. An astronomical unit is about 93 million miles or 150 million kilometers. And Delta is the distance of that object from the Earth, also in astronomical units. I omit the ‘m’ in am and pm for compactness. The data was generated using my LookingUp for DOS app and displayed by my Ephemeris Helper app.
Venus, Mercury and the Moon as it might appear about 10 PM or about 50 minutes after sunset over a Lake Michigan horizon. Spotting Venus may be impossible. Mercury might be glimpsed even though this is not a favorable elongation. Evening appearances of Mercury in summer are difficult to observe. The Moon is shown twice its normal size to show its phase. Created using Stellarium.
The Moon as it might appear through a small telescope tonight
The Moon as it might appear through a small telescope tonight, July 10th 2024. Selected features are labeled. Created using stellarium, LibreOffice draw, and GIMP.
A panorama of the morning planets at 5:15 AM
A panorama of the morning planets at 5:15 AM seen from the Grand Traverse Area or about 53 minutes before sunrise. Along with the planets the bright stars of autumn and winter are rising. Click or tap on the image to enlarge it. Created using Stellarium.
Telescopic Saturn and Jupiter
Telescopic Saturn and Jupiter (north up) as they would be seen in a small telescope at 5 AM July 11th 2024 with the same magnification. Apparent diameters: Saturn 18.2″, its rings 42.4″ tilted only 2 degrees from being edge on to us; Mars, too small to be represented here, is 5.5″; Jupiter 34.1″. Note the ” means seconds of arc, or 1/3600th of a degree. Click or tap on the image to enlarge it to show some of Saturn’s faint moons in line with the rings. Created using Cartes du Ciel (Sky Charts).
The naked-eye planets and the Moon at sunset and sunrise on a single night
The naked-eye planets and the Moon at sunset and sunrise on a single night, starting with sunset on the right on July 10, 2024. The night ends on the left with sunrise on the 11th. Click or tap on the image to enlarge it. Created using my LookingUp app and GIMP.
Ephemeris of the Sun Moon and naked eye planet positions for today and tomorrow
This is an ephemeris of the Sun Moon and naked eye planet positions for today and tomorrow, July 10th and 11th 2024. Some of the columns are self-explanatory, others not. The transit column is the time that the body crosses the meridian and is due south. Elong, for elongation, is the angle between the Sun and that body. RA is right ascension, which is the object’s east-west position on the celestial sphere. Dec is declination which is the north-south position of the object on the celestial sphere. The time of the positions is 8 pm EDT, (0 hr UT the next date). R is the distance of that object from the Sun in astronomical units. An astronomical unit is about 93 million miles or 150 million kilometers. And Delta is the distance of that object from the Earth, also in astronomical units. I omit the ‘m’ in am and pm for compactness. The data was generated using my LookingUp for DOS app and displayed by my Ephemeris Helper app.

Categories: Ephemeris Program, Naked-eye planets, Observing, Planets Tags: , , , , ,

Ephemeris: 07/09/2024 – The Moon Tonight – Mare Crisium

July 9, 2024 Comments off

This is Ephemeris for Tuesday, July 9th. Today the Sun will be up for 15 hours and 22 minutes, setting at 9:29, and it will rise tomorrow at 6:07. The Moon, halfway from new to first quarter, will set at 11:53 this evening.

Tonight’s four-day old crescent Moon will be seen in the west at about 10:30 PM, though it’s visible much earlier than that. Binoculars will show a small gray round area near the right edge of the Moon which is seen in the full moon as the eye of the Man in the Moon. The feature is called Mare Crisium or the Sea of Crises. And is an Oval 385 by 354 miles in extent. However, it is elongated east to west rather than what it appears to be, north to south. That is due to foreshortening because it is near the limb of the Moon and thus curved away from us. So we are looking at it at an oblique angle. Mare Crisium is thought to be the result of an impact of an asteroid that occurred nearly 4 billion years ago during the Late Heavy Bombardment.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EDT, UT–4 hours). They may be different for your location.

Addendum

The four day old Moon
The four day old Moon as it might be seen in binoculars or small telescope tonight, July 9th 2024. I’m highlighting Mare Crisium that lies near the limb of the Moon from Earth’s vantage point. Compare it with the images below taken from the Apollo 11 spacecraft and another one looking at the Moon from Earth’s side at the same phase as the Apollo 11 photograph. Created using Stellarium, LibreOffice Draw, and GIMP.
Mare Crisium from the side of the Moon taken by the Apollo 11 crew
Mare Crisium from the side of the Moon taken by the Apollo 11 crew as they departed the Moon, showing its true shape. Credit: NASA/Apollo 11 Crew.
The nearly first quarter Moon as seen from the Earth
The nearly first quarter Moon as seen from the Earth at the same scale and phase as the Apollo picture above. See if you can match the maria or seas to the Apollo 11 picture . Created using stellarium.
Categories: Ephemeris Program, The Moon Tags: ,

Ephemeris: 07/08/2024 – The Summer Triangle dominates the eastern sky

July 8, 2024 Comments off

This is Ephemeris for Monday, July 8th. Today the Sun will be up for 15 hours and 23 minutes, setting at 9:29, and it will rise tomorrow at 6:06. The Moon, 3 days past new, will set at 11:34 this evening.

We’re two weeks into summer, and the asterism or informal constellation called the Summer Triangle can be seen in the eastern sky as it gets dark. The highest of the three bright stars is Vega in the constellation Lyra the harp, whose body is seen in a narrow parallelogram just below it. The second star of the triangle is Deneb, in Cygnus the swan, lower and left of Vega, It appears dimmer than Vega because it is by far the most distant of the three. The third star of the Summer Triangle is seen farther below and a right of Vega. It is Altair in Aquila the eagle, and the closest. Altair is 16.5 light years away, Vega is 27 light years, while Deneb may be a whopping 2,600 light years away. One light year by the way, is 6 trillion miles (9 trillion kilometers).

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EDT, UT–4 hours). They may be different for your location.

Addendum

Finder animation for the Summer Triangle
Finder animation for the Summer Triangle. Created using Stellarium and GIMP.
The Milky Way in the Summer Triangle
Something that we are going to be missing in the next couple of weeks with the Moon being out in the evening will be the Milky Way that runs through the Summer Triangle. This photograph by Daniel Dell’Olmo emphasizes the Milky Way that can be seen under moonless skies.
Categories: Asterism, Ephemeris Program, Observing, Stars

Ephemeris: 07/05/2024 – GTAS meeting: processing astrophotographs

July 5, 2024 Comments off

This is Ephemeris for Friday, July 5th. Today the Sun will be up for 15 hours and 26 minutes, setting at 9:30, and it will rise tomorrow at 6:04. The Moon is new today, and won’t be visible.

Tonight’s meeting of the Grand Traverse Astronomical Society at Northwestern Michigan College’s Rogers observatory, which starts at 9 PM tonight, will feature a talk by Dan Dall’Olmo, one of our successful astrophotographers in the society. He will discuss image processing. Taking the picture is only the beginning. He will show how to bring out and sharpen images taken with digital cameras. Back in my day processing photographs involved chemicals in the darkroom. “I love the smell of Hypo in the morning”. Now it involves computers and software. Afterward if it’s, clear we’ll be viewing the sky. Note the later start time for the meeting. We follow the later sunsets this time of year, so viewing starts after sunset. The observatory is located south of Traverse City on Birmley Rd. Between Garfield and Keystone roads.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EDT, UT–4 hours). They may be different for your location.

Addendum

Here are a couple of Dan’s photographs of celestial objects visible this time of year. The eaw images do not look this good, hence the image processing to bring out the image brightness and detail.

Trifid Nebula
Messier 20 or M20 the Trifid Nebula in Sagittarius. Click or tap on the image to enlarge it. Credit Dan Dall’Olmo.
The Summer Triangle and the Milky Way
The Summer Triangle of the three brightest stars in this image, as if it was overheaad and one is facing south.. At the top is Deneb in Cygnus the swan, who’s other stars are overpowered by the Milky Way. Just to the left of Deneb is the North American Nebula in red. On the left is Vega in Lyra the harp. Its parallelogram of stars can seen below it. At the bottom is Altair in Aquila the eagle which is flanked by two stars. Crossing through the Summer Triangle is the Milky Way with the dark clouds of the Great Rift bisecting it. Click or tap on the image to enlarge it. Credit Dan Dall’Olmo.
Categories: Ephemeris Program, GTAS Outreach Event, Star Party Tags: , , ,

Ephemeris: 07/04/2024 – The Earth at aphelion

July 4, 2024 Comments off

This is Ephemeris for Independence Day, Thursday, July 4th. Today the Sun will be up for 15 hours and 27 minutes, setting at 9:31, and it will rise tomorrow at 6:03. The Moon, 1 day before new, will rise at 5:10 tomorrow morning.

Tomorrow morning at 1:59 AM , actually overnight tonight, the Earth will reach aphelion from the Sun, the farthest it gets from it during the year. Earth will be 94 and a half million miles away from the Sun, a bit farther than our normal 93 million. In a planet’s orbit of the Sun, the Earth is no exception, it moves slowest when farthest from the Sun than when it’s nearest. It doesn’t make much difference in the amount of heat we get from the Sun being only 1 1/2% farther than average. But it makes summer the longest season at 94 days, versus winter’s 89 days. OK, I know it doesn’t feel like it here in Northern Michigan, but count the days between each solstice and the next equinox.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EDT, UT–4 hours). They may be different for your location.

Addendum

A highly exaggerated look at the orbit of the Earth showing perihelion and aphelion, also the equinoxes and solstices and the relation thereof. Periapsis and apoapsis are general terms, for any orbit. For a satellite orbiting the Earth the terms would be perigee and apogee. Source unknown.
This is a diagram of the true shape of the Earth’s orbit and position of the Sun showing aphelion and perihelion for the year 2024. The dates do vary by up to couple of days each year as do the distances a little bit. The date difference is a bit more than the date change of the solstices and equinoxes year to year. Created using my LookingUp app, LibreOffice Draw for captions, and GIMP.

Categories: Astronomical Event, Earth, Ephemeris Program, Sun Tags:

Ephemeris: 07/03/2024 – Where have the naked-eye planets wandered off to this week?

July 3, 2024 Comments off

This is Ephemeris for Wednesday, July 3rd. Today the Sun will be up for 15 hours and 28 minutes, setting at 9:31, and it will rise tomorrow at 6:03. The Moon, 2 days before new, will rise at 4:13 tomorrow morning.

Let’s find out where the naked-eye planets have wandered off to this week,. Venus is too close to the direction of the Sun to be seen. Mercury just might be seen very low in the west-northwest by 10 pm or so. Venus will appear in the evening sky next month. By 5:15 tomorrow morning, or about 45 minutes before sunrise, Saturn will be in the south-southeast and Mars will be lower in the east, and Jupiter will be low in the east-northeast. The skinny waning crescent Moon may be seen halfway between Jupiter and the northeastern horizon. Saturn will be a bit dimmer this year and next due to its rings being nearly edge on to us and not reflecting as much light. Saturn will rise at 12:40 am, Mars at 2:48 am, and Jupiter at 3:51 am.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EDT, UT–4 hours). They may be different for your location.

Addendum

Mercury and Venus in the evening sky 1/2 an hour after sunset or 10 PM according to Stellarium . Spotting Mercury will be a real challenge and probably require binoculars. This is not a good elongation of Mercury for observers in the northern hemisphere so don’t worry if you can’t spot it. Venus, basically, is too close to the horizon to be spotted. Created using Stellarium.
The morning planets and the Moon are spread out from the east-northeast to the south in the morning sky at 5:15 AM, or about 45 minutes before sunrise, July 4, 2024. Also visible is the bright star Capella. Created using Stellarium.
This is the Moon according to Stellarium a day before new as it might appear tomorrow morning, July 4th 2024. The night side of the Moon will appear to be illuminated by earthshine, the reflection of the Sun’s light from off the Earth in the Moon’s sky. Created using Stellarium.
Telescopic Saturn and Jupiter (north up) as they would be seen in a small telescope at 5 AM July 4th 2024 with the same magnification. Apparent diameters: Saturn 18.0″, its rings 41.9″; Mars, too small to be represented here, is 5.4″; Jupiter 33.7″. Note the ” means seconds of arc, or 1/3600th of a degree. Created using Cartes du Ciel (Sky Charts).
The naked-eye planets and the Moon at sunset and sunrise on a single night, starting with sunset on the right on July 3, 2024. The night ends on the left with sunrise on the 4th. Click or tap on the image to enlarge it. Created using my LookingUp app and GIMP.
This is an ephemeris of the Sun Moon and naked eye planet positions for today and tomorrow, July 3rd and 4th 2024. Some of the columns are self-explanatory, others not. The transit column is the time that the body crosses the meridian and is due south. Elong, for elongation, is the angle between the Sun and that body. RA is right ascension, which is the object’s east-west position on the celestial sphere. Dec is declination which is the north-south position of the object on the celestial sphere. The time of the positions is 8 pm EDT, (0 hr UT the next date). R is the distance of that object from the Sun in astronomical units. An astronomical unit is about 93 million miles or 150 million kilometers. And Delta is the distance of that object from the Earth, also in astronomical units. I omit the ‘m’ in am and pm for compactness. The data was generated using my LookingUp for DOS app and displayed by my Ephemeris Helper app.
Categories: Ephemeris Program, Naked-eye planets, Observing, Planets Tags: , , , , ,

Ephemeris Extra: 07/02/2024 – A closer look at Corona Borealis

July 2, 2024 Comments off

Adapted from an article that ran in the Stellar Sentinel, the July 2024 newsletter of the Grand Traverse Astronomical Society.

Corona Borealis in relation to some of its neighboring constellations and bright stars. Created using Stellarium.

A small constellation is getting a lot of attention this year because we expect a bright nova to appear in it sometime in the next few months. The constellation is Corona Borealis, the Northern Crown. It is a small constellation between the Boötes and the bright star Arcturus and Hercules, and farther off to the east the bright star Vega. Corona Borealis contains seven stars in the 2/3 circle of stars. Its brightest star is the third star from the right. It’s the second magnitude star called Alphecca. In Arabic, it means The Bright Star of the Broken Ring of Stars, which is a pretty good description of it. It is also known as Gemma though it sounds like a gem in a crown, it actually means blossom which would appear in a floral crown.

In Greek mythology the crown was given to the Princess Ariadne. The story goes like this. During the time of the Minoan civilization on Crete, It was ruled by King Minos, whose daughter was Ariadne. The Minoans apparently had defeated Athens in battle and had extracted tribute from them. That yearly tribute being the sacrifice of the young man or maiden to enter the Labyrinth which was home to a monster called the Minotaur. In this story a fellow by the name of Theseus from Athens was sent to Crete to face the Minotaur. He fell in love with Ariadne, but he had to enter the Labyrinth, so she provided him with a spool of thread so he could find his way back out again after he had slain the Minotaur, if he was able to. He entered the Labyrinth and found the Minotaur. Theseus was able to slay the beast, and was able to follow the thread back out. Theseus and Ariadne fled to the Island of Naxos where he married her. However, he soon abandoned her. As consolation, the god Dionysus gave her a crown. She kept the crown until she remarried, and it was placed in the sky where we see it today.

For the Anishinaabe native peoples of our area Corona Borealis becomes the Sweat Lodge. Other indigenous peoples of North America see these stars as circles of maidens, or other circles. To the Aborigines of Australia who see Corona Borealis very low in the north, it’s Woomera, the boomerang.

The location and expected brightness of T Coronae Borealis (T CrB) when it goes nova later this year.


The constellation has two famous variable stars. The one we’re expecting to flare up this year, up to second magnitude as a nova, is T Coronae Borealis (T CrB), sometimes called the Blaze Star. It was recorded in 1866 and at even earlier times, and was naked eye for eight days, dropping a half magnitude per day. It also blazed forth in 1946, making it one of the few known recurrent novas. In 1946 the star, normally 10th magnitude, barely visible in binoculars, underwent a slight dimming about 11 months before it blazed forth as a nova. This has already happened last year, so we are expecting it soon to blaze forth again. It will appear to the lower left, just outside the circle of stars in the crown, and will grow as bright as Alphecca.

Novas, also in the case of T CrB, are close binary stars containing a large star and a white dwarf. A white dwarf is a star at the end of its life, and has run out of hydrogen or other light elements in its core to keep it sustained. So it shrinks down to about the size of the Earth, even though it has the mass of the Sun or a little more. It orbits with the larger star and is basically siphoning off gas from that large star onto its surface, enough gases accumulate on the star for a thermonuclear reaction to occur, and it becomes a nova, brightening thousands of times for a few days. The white dwarf survives to do it all over again in some cases.

Corona Borealis, pointing out the location of variable stars R CrB and T CrB. Created using Stellarium.

Corona Borealis’ other famous variable star is R Coronae Borealis, a star that’s normally about 6th magnitude that irregularly dips down to 10th or even dimmer. The mechanism for this appears to be that the star is surrounded by clouds of dust that periodically block it from our view.

If you’re interested in observing variable stars, check out the American Association of Variable Star Observers: https://www.aavso.org/

Corona Australis finder
Corona Australis finder chart, for around midnight August 2nd.

If there’s a Northern Crown, there should be a Southern Crown, and there is. It is Corona Australis made of dim stars, and it is located just below the constellation of Sagittarius, right below the Teapot asterism, which is very low on our southern horizon after midnight this month, but better seen in August.

Categories: Constellations, Ephemeris Extra, Mythology, Nova