Here are a few ideas which may or may not be included in the many excellent eclipse resources:
Where to Go
Many locations will probably have cloudy skies. So, try to have more than one place to go. Decide in advance how far you are willing to travel. Check the weather forecasts and say a prayer!
My ideal place would be in a large field without any distractions, such as floodlights which turn on in darkness. It would be interesting to find an elevated area, where the motion of the Moon’s shadow can be seen.
Some venues will have a sort of celebration, perhaps with music and fireworks. You may seek one or avoid one, as you prefer.
Lodging
Many eclipse chasers will change plans at the last minute, so keep checking for cancellations, even on Eclipse Day.
You Tube Videos
To get an idea what to expect, try watching videos of the August 2017 event from various locations. Ask yourself which settings you would enjoy.
Watching the Eclipse
Many people are overwhelmed by the sensations of the event and forget to carry out their plans. I met an experienced photographer who traveled thousands of miles to photograph a total solar eclipse. He forgot to take the pictures! Don’t feel bad if you do something similar.
If you have a camera which can operate automatically, try to set it up ahead of time.
Your basic equipment is a lawn chair and a pair of eclipse glasses. With just these, you can have a very good experience.
Immediately before and after totality there are many things to watch: shadow bands, motion of the Moon’s shadow, the Diamond Ring and Bailey’s beads. It would be difficult to see everything in the brief time available. If you see one or two of these things, call it a good day.
Safety
Please learn how to protect your eyes from the Sun.
There is a middle road between carelessness and over-caution. You don’t need to stay indoors and close the curtains!
During the Total portion of the eclipse, you may look at the Sun directly. You may take off your eclipse glasses when the last remnant of the Sun disappears. As soon as the Sun reappears, you should put your glasses back on.
This is a reprint of my account of the 2017 eclipse. I had never seen a total Solar Eclipse before. I hope you will find it helpful.
It has taken a week to catch up on a lot of neglected chores (like sleep), but now I am ready to tell the story!
Summary: The experience of the eclipse was worth four days of driving!
We had options to go to Missouri, Nebraska, or Tennessee. Based on the weather forecasts, we chose Lebanon, Tennessee. We arrived a day early, and searched for good places to watch the eclipse. The Cedars of Lebanon State Park looked good, but I was apprehensive that the viewing area would not be big enough for the expected crowds of people.
Early in the morning of eclipse day, my daughter and I returned to the park, and claimed a spot in the open field. It turned out that there was plenty of room for everyone. We were joined by a fellow-member of my astronomy club with some friends.
We wanted clear skies, and we got them! The Sun was high in the sky, and the air was hot and humid. Fortunately, we had two extra camera tripods and two umbrellas. We fastened the umbrellas to the tripods with hose clamps and duct tape, and positioned them near our chairs so that we had some relief from the scorching sunshine.
After a full day of clear skies, banks of clouds moved in, and covered the Sun at the start of the partial eclipse. Thankfully, the clouds left and did not come back.
I had a grand plan to take videos and still shots of the eclipse, using 5 cameras mounted on a single tripod. I had tried out this gadget at home, and was successful in managing it. However, on eclipse day, I found that it was impossible to aim it high enough to capture the Sun, and I wasn’t able to keep it balanced.
After trying several fixes, I realized that we were half way into the partial eclipse, and I hadn’t looked at the Sun! So, I set some priorities by giving up the eclipse photography.
Giving up on the photography was a great relief. I was also able to be more sociable, and talk to the people around me. And, I was able to enjoy the eclipse!
Time passed quickly, and I noticed that the heat of the Sun was no longer bothersome. The remaining sunshine was dim, but didn’t have the orange cast which goes with sunset. Everything looked a bit gray.
I had a plan to watch the ground for the shadow bands, which are very subtle ripples which often appear just before and after totality. However, when the coverage of the Sun was in its last stages, I forgot those plans. My entire focus was on the long awaited total eclipse, which was about to happen.
Through the eclipse glasses, I watched the Sun shrink rapidly. When there was nothing more to see, it was time to put the glasses aside. I will try to describe what I saw: The sky was a dark grayish blue, which was brighter gray near the Sun. The body of the Sun was a round black circle. The corona was quite a bit larger than the disk of the Sun. Its width was irregular, and was widest on the lower right. A red stream protruded from the bottom of the black disk. Its length was about 1/16 of a sun diameter, and was visible without magnification.
I came to my senses and remembered that I had brought a pair of 7 x 50 binoculars to use during totality. Because they didn’t have solar filters, I had hidden them for safety. I scrambled in the dark, and found them. The view of the Sun was better with magnification, but the red streamer appeared smaller.
Toward the end of totality, the red stream had changed appearance again. Someone nearby said that this object was a solar flare. I need to learn more about this. I didn’t think that solar features changed so rapidly over a period of 2 – ½ minutes. It is possible that the changes were in my perception, rather than reality.
[The red streamers are called prominences, not solar flares.]
Although stars and planets were visible during totality, I was not interested in viewing them on eclipse day. I have the rest of my life to do that! Venus, however, forced itself on me. Because it was so close to the Sun and so high in the sky, it was annoyingly bright. I had never seen Venus so bright. Curiously, I remember the position of Venus as directly above the Sun in the sky. Later, I checked the position of Venus on two different planetarium apps. They both show Venus to the right, and slightly higher than the Sun. I think that the apps were right, and the observer was excited.
The 2 minutes and 20 seconds of totality passed quickly, and a tiny sliver of the Sun lit up our area again. I was amazed at how much light comes from the Sun even when it is 99% covered. In a few seconds, lighting had changed from a very deep twilight to an early twilight, and we had no trouble seeing ourselves and our surroundings.
Our crowd was very calm, compared to ones I had watched on videos. We all broke out with a spontaneous cheer at the start of totality, and another applause at the return of the Sun.
I had no regrets that I dropped the idea of photographing the eclipse, because I was planning to take a series of shots with a manual single-lens-reflex camera. It is unlikely that I would have had enough alertness to make the settings and shoot the pictures. I did remember to make movies of the crowd reactions. The quality of the movies is mediocre, but their keepsake value is tremendous.
A few minutes after totality ended, I was thinking about the next total solar eclipse for North America, which will be on April 8, 2024.
A total eclipse of the Sun is an opportunity for a number of unique experiences. Here are some:
The Partial Phase
When the partial phase of the eclipse is progressing, the sky will darken. Unlike sunrise and sunset, the sky will take on a grey cast, rather than red or orange. Shadows, which are normally have a blurred outline, will get sharper and sharper as totality approaches.
As more and more of the Sun is covered, we will feel the chill.
The darkening of the sky and the chill will cause wildlife to make different sounds as they get ready for night time.
Totality Approaches
For a few minutes before totality, very subtle dark shadow bands are sometimes seen on the ground.
During the few seconds before totality, the last bits of sunlight form features called the Diamond Ring and Bailey’s Beads.
If you are in a high-rise or another good vantage point, you may see the central shadow of the Moon (called the umbra) as it covers the ground. It will move quickly, around 2000 mph!
Totality
Suddenly, all sunlight will be absent, except for a dim glow at the horizons. This light comes from distant places where the Sun is only partially eclipsed.
The Sun’s Corona will be visible. This is the outer region of the Sun’s atmosphere. It is not normally seen because it is overpowered by light from the disk of the Sun.
In addition to the corona, we will be able to see red solar prominences. Prominences are plumes of extremely hot gas protruding from the surface of the Sun. They are not a large feature, but can be seen at the edge of the eclipsed Sun.
Since it is dark, stars and planets will be visible. On April 8, all of the bright planets will be visible. This is a unique opportunity to view all the large bodies of the solar system in a single glance! Venus will be extremely bright. Jupiter, Saturn and Mars should be easy to find. Mercury will be dim and close to the Sun.
After Totality
All of the “before totality” events will be seen in reverse order. The brightening Sun will provide a smooth transition to life as we knew it.
Of all the things one can see in the sky, the total eclipse of the Sun has the reputation of being the most spectacular. In this event, day turns into night as the Moon covers the bright face of the Sun. During this time, the outer region of the Sun, called the corona, is visible. Unfortunately, a total solar eclipse is visible only to people on a narrow strip of land. For the rest of the world, the Sun is covered only partially, or not at all.
Fortunately, residents of the continental United States will soon have a chance to see a total eclipse without making a long journey. On Monday, April 8, 2024, a total solar eclipse will be visible in Mexico, 15 states of the USA, and 6 provinces of Canada.
On-Line Planning Aids
To find out where you can experience this beautiful event, many planning tools are available on line. Here is one:
Go to: timeanddate.com/eclipse
Select “Path Map“ under “April 8, 2024 …”
The darkest band is the zone where the total eclipse will be visible. Let’s try Toledo, Ohio. Navigate to Toledo and click on any place in the city. A small table will pop up with information about the view from that location. Note the words: “Total Solar Eclipse”, which we want! Another important item is “Duration of Totality”. It will be 1-2 minutes, depending on the location.
Next, try a location near the red dotted line inside the dark band. The duration of totality will be close to 4 minutes. This would be a good place to check out, because totality would be long and the sky would be very dark at the mid-point of totality.
Finally, try a place outside the dark band, like Adrian, Michigan. The pop-up indicates: “Partial Solar Eclipse”. At this location, the Sun will almost disappear and the sky will be somewhat dark.
For a good experience, more detailed planning is needed. My ideal location would be a large grassy area with a good view in all directions. It would be away from any kind of lights which may turn on when the sky gets dark.
It has been a while since I have posted anything, but I hope you are following good sources of news and information. My goal is to avoid repeating things which other people have already explained. I like to simply share my own experiences and insights.
So, I will start off by encouraging everyone to make plans for a unique and beautiful event: the total eclipse of the Sun on April 8, 2024:
To Go, or Not to Go?
If you don’t live in North America, you probably aren’t excited about this event. But, if you do live in this continent, you may have an opportunity for an amazing experience. Millions of people won’t have to travel at all. They just need to go outdoors at the right time! For the rest of us, travel will be needed.
So, this is a good time to make plans.
I had a very good experience with the total solar eclipse of August 2017. I will re-post some freshened versions of articles from that time.
Where’s the Moon?
My 3-year-old grandson loves to look for the Moon in the daytime. If I’m around, he lets me know. On Memorial Day, he got a chance to see the Moon through a small telescope. The next time we met, instead of saying “Hi Grandpa”, he said: “WHERE’S THE MOON?”
Since the third quarter Moon hadn’t risen, I pointed to the ground and said: “It’s down there.” He immediately got down and pushed the grass aside and said: “The Moon is here!”
He may be destined to be an astronomy enthusiast—time will tell. I would love to tell him everything I know, but we know that wouldn’t work. Where does a 3-year-old begin? I will try a couple of books about the Solar System.
Astronomy at the Beach is Back Again!
If you are anywhere near the Detroit metro area, here is an opportunity for a very enjoyable event. Astronomy at the Beach will be held at Island Lake Recreation Area in Brighton, Michigan. It will be held on Friday and Saturday, September 22-23, 2023.
This is a family-friendly event. They have many exhibits and talks. For me, the highlight is the dozens and dozens of telescopes provided by local astronomy club members (weather permitting). I have taken part in this event many times but have moved to central Illinois. It is a bit too far for me, now. For details, see: glaac.org or type “Astronomy at the Beach” into your search engine.
Book Review: Road Atlas for the Total Solar Eclipse of 2024
By Fred Espenak – Astropixels Publishing – 40 pages – $19.95 (Color Edition)
On Monday, April 8, 2024, those in North America will have the opportunity to experience a total solar eclipse. Having enjoyed the eclipse of 2017, I am starting to plan for our next opportunity.
The heart of this book is three overview maps and 26 detail maps of the path of totality in Mexico, the United States, and Canada. The base map is the familiar Google Maps rendition of the towns, major roads, major parks, and bodies of water. This base is overlaid with northern and southern limits of totality, the center line, and lines indicating duration of totality. For every 5-minute interval, the location of mid-eclipse is marked on the center line, with a notation of the duration of totality and the elevation of the Sun.
This is the basic information needed to begin to select a place to view the eclipse.
When I was planning for the August 2017 total eclipse, I didn’t buy the 2017 edition of this atlas. Since of the information in the atlas was available elsewhere, I didn’t see the need to buy the book. I learned (the hard way) that planning is more efficient when all the basic information is on the same sheet of paper.
The print clarity of the maps was a disappointment. The major roads are easy to identify, but the secondary roads are almost invisible, especially in the path of totality, which is shaded light gray. To get to a location, better maps or navigation software would be needed.
In 2017, I had a good look at the eclipsed Sun, and enjoyed watching peoples’ reactions to the whole experience. In 2024, I would like to watch the Moon’s shadow as it appears to move across the ground. My “dream location” would include a high point overlooking a valley. I will be able to do the initial screening for possible sites with Espenak’s atlas, combined with other resources.
I bought my 2024 atlas early, so I can combine site exploration with my other travels. My home is only a 3 ½ hour drive from Indianapolis, Indiana, which is near the center line. In the next four years, I hope to have a chance to visit some sites in this area. I would also like to identify some alternate locations further away; in case cloudy skies are predicted.
As eclipse day approaches, weather patterns may change suddenly, necessitating last-minute changes of plans. In this case, the eclipse road atlas could be worth its weight in gold.
This is a link to a vendor for this book, along with a lot of information about eclipses. An image of the book cover is included. This image includes a good sample of the detail maps.
This photo, by Brian Ottum, matches my memory of what the eclipse looked like.
It has taken a week to catch up on a lot of neglected chores (like sleep), but now I am ready to tell the story!
Summary: The experience of the eclipse was worth four days of driving!
We had options to go to Missouri, Nebraska, or Tennessee. Based on the weather forecasts, we chose Lebanon, Tennessee. We arrived on Sunday, and searched for good places to watch the eclipse. The Cedars of Lebanon State Park looked good, but I was apprehensive that the viewing area would not be big enough for the expected crowds of people.
Early in the morning of eclipse day, my daughter and I returned to the park, and claimed a spot in the open field. It turned out that there was plenty of room for everyone. We were joined by a fellow-member of my astronomy club with some friends.
The Ball Field at the Cedars of Lebanon State Park was not at all crowded.
We wanted clear skies, and we got them! The Sun was high in the sky, and the air was hot and humid. Fortunately, we had two extra camera tripods and two umbrellas. We fastened the umbrellas to the tripods with hose clamps and duct tape, and positioned them near our chairs so that we had some relief from the scorching sunshine.
After a full day of clear skies, banks of clouds moved in, and covered the Sun at the start of the partial eclipse. Thankfully, the clouds left and did not come back.
Here I am with my 5-camera monstrosity. Shortly afterwards, it was abandoned.
I had a grand plan to take videos and still shots of the eclipse, using 5 cameras mounted on a single tripod. I had tried out this gadget at home, and was successful in managing it. However, on eclipse day, I found that it was impossible to aim it high enough to capture the Sun, and I wasn’t able to keep it balanced.
After trying several fixes, I realized that we were half way into the partial eclipse, and I hadn’t looked at the Sun! So, I set some priorities by giving up the eclipse photography.
Giving up on the photography was a great relief. I was also able to be more sociable, and talk to the people around me. And, I was able to enjoy the eclipse!
Time passed quickly, and I noticed that the heat of the Sun was no longer bothersome. The remaining sunshine was dim, but didn’t have the orange cast which goes with sunset. Everything looked a bit gray.
Two minutes before totality, an unusual kind of darkness covered us.
I had a plan to watch the ground for the shadow bands, which are very subtle ripples which often appear just before and after totality. However, when the coverage of the Sun was in its last stages, I forgot those plans. My entire focus was on the long awaited total eclipse, which was about to happen.
Through the eclipse glasses, I watched the Sun shrink rapidly. When there was nothing more to see, it was time to put the glasses aside. I will try to describe what I saw: The sky was a dark grayish blue, which was brighter gray near the Sun. The body of the Sun was a round black circle. The corona was quite a bit larger than the disk of the Sun. Its width was irregular, and was widest on the lower right. At first look, a red stream protruded from the bottom of the black disk. Its length was about 1/16 of a sun diameter, and was visible without magnification.
I came to my senses and remembered that I had brought a pair of 7 x 50 binoculars to use during totality. Because they didn’t have solar filters, I had hidden them for safety. I scrambled in the dark, and found them. The view of the Sun was better with magnification, but the red streamer appeared smaller.
Toward the end of totality, the red stream had changed appearance again. Someone nearby said that this object was a solar flare. I need to learn more about this. I didn’t think that solar features changed so rapidly over a period of 2 – ½ minutes. It is possible that the changes were in my perception, rather than reality.
Although stars and planets were visible during totality, I was not interested in viewing them on eclipse day. I have the rest of my life to do that! Venus, however, forced itself on me. Because it was so close to the Sun and so high in the sky, it was annoyingly bright. I had never seen Venus so bright. Curiously, I remember the position of Venus as directly above the Sun in the sky. Later, I checked the position of Venus on two different planetarium apps. They both show Venus to the right, and slightly higher than the Sun. I think that the apps were right, and the observer was excited.
The 2 minutes and 20 seconds of totality passed quickly, and a tiny sliver of the Sun lit up our area again. I was amazed at how much light comes from the Sun even when it is 99% covered. In a few seconds, lighting had changed from a very deep twilight to an early twilight, and we had no trouble seeing ourselves and our surroundings.
Our crowd was very calm, compared to ones I had watched on videos. We all broke out with a spontaneous cheer at the start of totality, and another applause at the return of the Sun.
I had no regrets that I dropped the idea of photographing the eclipse, because I was planning to take a series of shots with a manual single-lens-reflex camera. It is unlikely that I would have had enough alertness to make the settings and shoot the pictures. I did remember to make movies of the crowd reactions. The quality of the movies is mediocre, but their keepsake value is tremendous.
A few minutes after totality ended, I was thinking about the next total solar eclipse for North America, which will be on April 8, 2024.
No need to worry. There are several safe, simple ways to view the progress of the eclipse:
A pinhole projector can be as simple as an index card with a tiny hole. A thumb tack or a push pin can make a good hole of the proper size. ‘To use, hold the card so that it faces the Sun, and place a second index card in the shadow of the first card. Adjust the spacing of the cards until a good image of the Sun is visible.
Use a mirror to project Sunlight onto a wall. I just heard about this technique, and haven’t had a chance to try it out. Use a circular mirror, or a mirror masked by cardboard with a circular hole. Hold the mirror so that it casts reflected sunlight onto a smooth white or gray wall, or some similar surface. If all goes well, the patch of reflected light will have the same shape as the eclipsed Sun. Caution: Don’t look directly into the mirror to see the Sun. This is just as destructive as looking directly at the Sun. If you fasten the mirror to any kind of fixture, stay with it, so that other people don’t misuse it.
Here’s an easy one: Find a tree or bush with leaves and look at the shadow that it casts. Wherever the shadow has a small sunny spot, you should be able to see the shape of the eclipsed Sun. This same effect can be produced by a piece of cardboard with a hole, or even with your hands and fingers.
Real Simple Astronomy 