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Ephemeris: 12/30/2024 – Two great astronomical events of 2024

December 30, 2024 2 comments

This is Ephemeris for Monday, December 30th. Today the Sun will be up for 8 hours and 51 minutes, setting at 5:11, and it will rise tomorrow at 8:20. The Moon is new today, and won’t be visible.

Speaking of new moons, the most spectacular astronomical event of 2024 was the total solar eclipse of April 8th. The path of totality came fairly close to us here in Northern Michigan just clipping the southeastern corner of the state. It was my sixth observation of a total solar eclipse out of six tries and probably my last, because our next total solar eclipse in the contiguous 48 states will be twenty-one years from now in 2045. The other event of 2024 was the appearance of the Comet Tsuchinshan-ATLAS which graced our skies for a few days in mid-October. I have no reports of anybody seeing it with the naked eye, however it was visible in binoculars and easily photographed with a few seconds exposure with a camera. It had a very prominent tail.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT – 5 hours). Times will be different for other locations.

Addendum

One minute before totality looking southwest
One minute before totality looking southwest. Looking up the eclipse path at the approaching shadow. The horizon at the extreme lower left is outside the totality shadow as we are. The bright spot at the top is the Sun, or what’s left of it. Note that the light on the pole has not yet turned on. Frame from my action camera.
In totality
In totality, the light on the pole next to me is now on. The sky is dark the Sun’s corona actually is overexposed this camera like the human eye adjusts somewhat to the darkness. This can be seen the lights from the gas station on the lower left compared with the other two shots. The planet Venus can be seen about 4 o’clock from the Sun, just beneath the power wires. Totality is at this location 4 minutes and one second. The diagonal flares through the bright objects is more than likely caused by the lens on the camera. they didn’t exist in reality. Frame from my action camera.
One minute after totality
One minute after totality. The pole light has turned off, and the world is beginning to turn back to normal. Frame from my action camera.
Photograph of C/2024 A3 (Tsuchinshan-ATLAS) at 8:47 PM EDT, October 16th 2024
Photograph of C/2024 A3 (Tsuchinshan-ATLAS) at 8:47 PM EDT, October 16th 2024 (00:47 UT, October 17, 2024). Cropped from a 4 second exposure at f/ 3.5, ISO-800, 18 mm focal length using a Canon EOS REBEL T5. Careful study of the tail suggests that it’s 8 degrees long. Credit: the author.
Categories: Astronomical History, Ephemeris Program Tags: , ,

Ephemeris Extra: 03/03/2024 – Tips for viewing the April 8, 2024 total solar eclipse

March 2, 2024 Comments off

What is a solar eclipse?

Solar eclipses or eclipses of the Sun occur in about one in six new moons. However, one must be in the right part of the Earth to see them, which is why they may seem rare.

In a solar eclipse the moon’s shadow is cast upon the Earth. Because the Sun is a disk, the Moon’s shadow is fuzzy with sometimes a dark core. The fuzzy outer part of the shadow is called the penumbra. Observers there will see the Sun partially covered by the Moon, a partial eclipse. Observers in the dark core of the shadow are in the umbra, and see the face of the Sun completely covered by the Moon, a total eclipse. The maximum length of totality is never more than about seven minutes. Maximum for this eclipse will be 4 minutes 28 seconds in Mexico. The maximum length of the partial eclipse would be about 2 ½ hours.

Image of the eclipse2024.org overview of its interactive eclipse map showing the path of totality. Click or tap on the map to enlarge it. Credit eclipse2024.org via NASA.gov.

What can be seen?

Solar corona
A composite image of something like 70 exposures of the Sun’s corona taken by Scott Anttila, former president of the GTAS.

The outer three layers of the Sun are potentially visible to us: photosphere, chromosphere, and corona. The photosphere is the bright ball of the Sun we normally see. Looking at it for any length of time will cause blindness. Never look at the Sun’s photosphere without an approved solar filter. The other two layers can be seen during the totality of a solar eclipse. A thin red layer of gas with flame-like protrusions called prominences just above the photosphere and can normally be seen in a Hydrogen Alpha solar telescope, but easily seen in binoculars just after totality starts and before it ends. The corona is a silvery white extended solar atmosphere that can be seen out to several solar radii out from the edge of the Moon. Its shape changes hour to hour, and sometimes minute by minute.

All around you strange things happen as the Sun is covered by the Moon.

August 21, 2017 total solar eclipse sky
Time-lapse of the eclipse shadow passing during the August 21, 2017 total solar eclipse near Fayette, MO. Animated GIF, created from my video.
Bea's temperature chart
Bea’s temperature chart of the August 21, 2017 total solar eclipse. From data taken by Bernadette Farrell. Note that the horizontal axis not to scale. We noticed a cool breeze near totality.
  • The temperature will drop as the Sun is covered. It will be interesting to record the drop and recovery before, during and after the eclipse. Even a deep partial eclipse like what we’ll see locally will show a drop.
  • Nearing totality the Sun’s light will appear somewhat yellow in hue. The revealed part of the Sun when it is mostly covered by the Moon is cooler and yellower than the central part. This is called limb darkening.
  • As totality approaches and the sky darkens, streetlights will turn on.
  • Also Chickens and other birds will go to roost. In the country cocks will crow before and after totality. Mosquitoes will think it’s twilight and will come out in mosquito prone areas for a snack.
  • Shadow bands will be projected on flat smooth surfaces in near maximum phases of the partially eclipsed Sun. These are very subtle and are caused by atmospheric turbulence and the nearly pinpoint illumination by the Sun. It took me four total eclipses in order to be able to spot the effect on the tarmac of an airport. The nearest analog of this is seeing the shadow pattern on the bottom of a swimming pool on a sunny day, but very much fainter.
  • Look for Venus (15° lower right) and Jupiter (30° upper left) of the Sun during totality. Just before, during and after totality look around at the sky and the incoming and outgoing umbral shadow.
  • Check out the colorful horizon effects.
Prominences and inner corona photographed during the February 26, 1979, total solar eclipse. My photograph.
Baily’s Beads at the end of totality of the March 7, 1970, solar eclipse. My photograph. This was 54 years and one month before this upcoming eclipse, 3 saros periods before this upcoming eclipse. This interval is called an exeligmos.

Viewing the partial solar eclipse

How not to view a partial solar eclipse
Eclipse glasses
These are eclipse glasses which can be gotten for a couple dollars or less.
They are especially difficult to use, especially for people who wear glasses and can’t remove them because they are near-sighted.
Personally I do not recommend them, instead relying on one of the projection methods.
Be especially careful about children using them.
Remember the ISO 12312-2 compliance that should be printed on them.

Never look directly at the partially eclipsed Sun without an approved solar filter. Solar filters must comply with ISO 12312-2 and transmit no more than 0.0032% of sunlight, and preferably less. Items sold as Eclipse viewing glasses must state that they comply with ISO 12312-2. People like me who wear glasses will find gaps above and below the frames of these filters where the Sun can get in, so must be used with extreme caution. No eclipse is worth your eyesight. The damage caused by looking directly at the Sun may not be known for several days after exposure, then it’s too late. I never use these filters, and prefer to project the Sun’s image on a white screen.

Oops, the caption at top should read 4 of my solar eclipses. I didn’t use it for my first eclipse in 1963. Anyway, binoculars or other telescope can be used. To aim it, use the shadow of the telescope on the ground.

Pinhole projection is an easy way to project the Sun’s image. Depending on how far you want to project the image the larger the pinhole the farther and larger (and dimmer) the image can be. “Pinholes” up to 1/4 inch and maybe even half an inch can be used if you’re projecting it 10 feet or more. One can even use a mirror in an envelope with a small hole punched in it with the paper punch to project the sun’s image on the shady side of a building. That way many people can view the eclipse safely. Also try different size holes to get the best combination of size and brightness of the image. Unlike the illustration above it is best to mount the mirror on a tripod, or other support somehow, rather than holding it to keep the image steady. Using this method, the Sun’s motion due to the Earth’s rotation can be seen. Also, large sunspots may also be visible.

"Pinhole" viewing techniques
“Pinhole” viewing techniques. Credit NASA.

Local Circumstances

Local eclipse times for Traverse City: Starts (first contact) 1:58 p.m. Maximum 3:12 p.m. 89% covered Ends (last contact) 4:25 p.m. Times for other localities in northern Michigan will be within a minute or two of these values. It may be a minute or two after first contact for the first bite of the Moon to become discernible.

Eclipse2024.org provides an interactive map of the April 8, 2024 eclipse on the Internet to allow the display of eclipse times for any location: https://eclipse2024.org/eclipse_cities/statemap.html

The maximum of the eclipse as it might be seen from Traverse City at 3:12 pm, August April 8th 2024. 89% of the sun will be covered. The closer one is to the path of totality the more of the sun will be obscured. The times of the eclipse will be within a few minutes for Northern Michigan. Created using Stellarium.

Eclipse2024.org provides an interactive map of the April 8, 2024 eclipse on the Internet to allow the display of eclipse times for any location: https://eclipse2024.org/eclipse_cities/statemap.html.

Categories: Ephemeris Extra, Solar Eclipse Tags: ,

Ephemeris: 02/09/2024 – Two lunar months until the total solar eclipse!

February 9, 2024 Comments off

This is Ephemeris for Friday, February 9th. Today the Sun will be up for 10 hours and 9 minutes, setting at 6:02, and it will rise tomorrow at 7:50. The Moon is new today, and won’t be visible.

Today marks two lunar months before the April 8th total eclipse of the Sun. It will be partial here when nearly 90% of the Sun will be blocked by the Moon. The best place to see the total part of the eclipse is on the line from Texas through Indiana, Ohio and ending in Maine. We will not have another total eclipse visible in the continental United States until 2044 and again in 2045. The 2044 total eclipse path will only touch North Dakota and Montana at sunset, after descending south from Canada*. The eclipse of 2045 will have a path across the United States much like, but south of, the path in of the August 21st 2017 eclipse. This time passing from Northern California to Northern Florida. So it’s going to be a long drought of total solar eclipses unless one travels to other continents or go on an eclipse cruise.

The astronomical event times given are for the Traverse City/Interlochen area of Michigan (EST, UT –5 hours). They may be different for your location.

* On the radio program I have the Moon’s shadow going the other way. This is a rare eclipse where the Moon umbral shadow (the part that produces totality) starts and ends at local sunset.

Addendum

The path of the April 8th 2024 total solar eclipse which will pass from southwest to northeast across the United States from Texas to Maine. Click or tap on the image to enlarge it. This image is part of an interactive eclipse map at https://eclipse2024.org/eclipse_cities/statemap.html. Credit: Eclipse2024.org.
The path of totality of the August 23, 2044 solar eclipse is outlined in blue. The path of totality actually starts in northern Greenland and ends up in the northern United States all of it occurring near sunset. It will not be visible at all from Michigan. Credit NASA.
The path of totality of the August 12, 2045 solar eclipse is outlined in blue. The path of totality crosses the United States from Northern California to Florida. The path is just south of the path of the 2017 eclipse. This next Great American Eclipse will be 21 years away. Credit NASA.

I will have Ephemeris Extra posts soon about how to observe the eclipse safely.

Categories: Ephemeris Program, Observing, Solar Eclipse Tags: ,

05/16/2022 – Ephemeris – More eclipses in our future

May 16, 2022 Comments off

This is Ephemeris for Monday, May 16th. Today the Sun will be up for 14 hours and 52 minutes, setting at 9:05, and it will rise tomorrow at 6:12. The Moon, at full today, will rise at 10:13 this evening.

Last night’s eclipse was the only eclipse that was visible in our area this year. However, in the next two years we will have a chance, weather permitting, to see two partial solar eclipses, the second of which will be even better than the partial solar eclipse seen here in August 2017. On October 14, 2023, there will be an annular eclipse. An annular eclipse is where the Moon is too far away to completely cover the face of the Sun. It leaves a ring of bright sun around the Moon. The technical term for a ring like that is annulus. The path of annularity will run from Oregon to Texas. For the Grand Traverse Area of Michigan, the Moon will cover less than half the face of the Sun. On April 8, 2024, the total eclipse path will run from Texas to Maine and just nip the Southeast corner of Michigan covering, for us in the Grand Traverse Area, about 85 percent of the Sun.

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

Path across US of Ocober 14 2023 annular solar eclipse

The areas where the October 14, 2023 solar eclipse can be seen are bounded by the outer green lines. The path where the annular part of the eclipse is visible is denoted by the triple green lines. Plotted on Google Earth using a file created by Occult4 software from the International Occultation Timing Association.

Path across the US of the April 8 2024 total solar eclipse

The areas across the U.S. where the April 8, 2024 solar eclipse can be seen are bounded by the outer green lines. The path where the total part of the eclipse is visible is denoted by the triple green lines. Plotted on Google Earth using a file created by Occult4 software from the International Occultation Timing Association.

Categories: Eclipses, Ephemeris Program, Solar Eclipse Tags: , , ,