Technical information about photographing equipment: Camera: Canon EOS 1100D, telescope: refractor 4”/f9.8 (L102/1000mm), AstroSolar-filter
Observing conditions: Clear sky most of the time
The weather forecast for the site I’m still dwelling (Kuusamo, Northeastern Finland) weren’t very promising for the eclipse day, but instead the sky was predicted to be totally clear in Oulu region (200 km southwest from Kuusamo) according to the Finnish Meteorological Institute. In the early hours of March 20th, I woke up and made a decision to drive to Oulu to observe the eclipse. I was driving towards Oulu when sky totally cleared up, and I decided to stay in village of Kiiminki 20km northeast of Oulu to observe the eclipse. I was observing in a parking lot of a service station/gas station in Kiiminki. The place was busy with lot’s of people, but it offered an open view towards southern sky.
The sky was totally clear during most of the duration of the eclipse. Only during late eclipse some clouds interfered a little. During maximum eclipse I could easily observe how the intensity of the light decreased, and somekind of twilight appeared. But very soon after the maximum eclipse, the lighting returned back to normal full daylight lighting. It appears to be so, that the effect of the eclipse to the lighting of the landscape and environment can be observed only in eclipses that are at least as deep as this one was (87,7%) or deeper. So, this was a succesfull attempt in observing this relatively rare natural phenomena!
I’m convinced that I made the right decision to drive 200 kilometers after the eclipse, because weather was totally cloudy here in Kuusamo according to the locals. Here’s a photo of the eclipsed Sun during the maximum eclipse.
So, tomorrow, where weather permits, a solar eclipse will be visible in Europe, Northern Africa and in parts of Middle East, Central Asia and Western Siberia. The line of totality of this eclipse will be in Northern Atlantic Ocean. Only land areas, where a total eclipse can be seen are Faroe islands and Svalbard islands in the Arctic ocean. Everywhere else, the eclipse will be a partial eclipse. The maximum lenght of totality in this eclipse is 2m and 46s. The duration of the whole eclipse is roughly two hours. There’s plenty of information about the eclipse for example at site called solareclipse2015.org.uk.
How to observe the eclipse safely?
When observing Sun and the eclipse, you should do it safely and with safe methods! Do not ever attempt to look straight towards the Sun with naked eye or with telescope, not even if the eclipse is very deep at your location! Only during the couple minutes of totality it is safe to have a look at the eclipsed Sun with naked eye.
There are two safe methods for observing the eclipse: 1) observing with solar filter, 2) projecting method. Ideally, you should have a proper solar filter made specifically for solar observing. It can be a filter made of AstroSolar -film or it can be a filter made of special glass. AstroSolar -film is a cheap but safe alternative, and you can easily get started with filter of that kind. Four years ago I wrote a blogpost about how to easily make a solar filter for you of AstroSolar -film. With the method presented in that article, it is easy to make a simple solar filter for your telescope, binoculars or a camera lens. It is also possible to watch the eclipse with naked eye through the AstroSolar -film. At the homepage of sky and Telescope, there is a good article about how to safely observe the Sun, and how to observe the sun with projecting method. If you don’t have AstroSolar or any other proper solar filter available, you can use a welder’s glass for watching the solar eclipse. The welder’s glass should be properly dark for safe solar viewing. You can ask for welder’s glass at your local hardware store.
How to photograph the eclipse?
Now I’m going to give you couple of hints about how to photograph the solar eclipse. These tips are specifically for the ones who have an opportunity to photograph the eclipse through a telescope. First of all, you need a DSLR camera and an adaptor ring for your camera. You also should have a adaptor sleeve in your telescope with proper threads for the adaptor ring. You just simply remove the lens from the camera, and set the adaptor ring to the camera the same way you set a lens to the camera. Then just make sure, that the solar filter is in it’s place at the objective side of your telescope.
When the camera is attached to the telescope, aim the telescope roughly to Sun. Do not look through the finder for locating the Sun! Instead, use the image of the Sun for locating the Sun in field your telescope. For example, place a white piece of paper behind the finderscope so that you can see the shadow of the finderscope at the paper. If you can also see the projected image of the Sun at the paper, then just turn the telescope (around rectascension and/or declination axises) so that the image of the Sun s exactly at the shadow of the finderscope. Then the Sun should be in the field (assuming that your finderscope is in alignment with the telescope). Then use the ‘live view’ mode of your camera to make sure that the Sun is in the middle of the view and to make sure that it is focused. Focus normally with the focusing wheel of your telescope. In live view mode, you can zoom in to some sunspots or at the limb of the Sun to make sure, that the image is as well focused as possible.
When taking photos, use short exposure times. The exposure time can be as short as 1/800s – 1/3200s. Ideally, you should take some test shots before the eclipse for finding the best settings for your setup. Also during the eclipse, you can take series of photos with different settings and then choose the best shots afterwards. ISO value can be something like 100 to 400. As the white balace setting, you can use for example daylight or automate mode. And remember to use the manual (M) program for solar photography!
If you don’t have an DSLR camera, you can take photos through the ocular of your telescope with your compact camera or a camera of your smartphone. This method is simply known as digiscoping.
Exposure time: 1/800s to 1/3200s
ISO: 100 to 400
White balance: automate or daylight mode
Okay, so with these tips you should have better chances at succesfully observing and photographing the solar eclipse on 20th March 2015! I wish you the best of luck with observing this rare, natural phenomena!
Observed object: Sun and sunspot group AR 2297
Time: 10:15 UT
Observing site: Kuusamo, Finland
Instrument: Canon EOS 1100D, 4” refractor
Today when I’m writing this post, it’s exactly one week to go to the solar eclipse! Now weather has been really fantastic, days and nights have been clear and now the length of the day almost equals the length of the night! I’m just a bit worried about the timing of this period of clear skies, I’m now wondering, how long it lasts? Does it last until the eclipse day? Let’s keep our fingers crossed!
Yesterday (12.3.2015) I was practicing solar photography with my telescope here in Kuusamo. My telescope was f/9.8/4” refractor (102mm/1000mm). My camera is Canon EOS 1100D. I’m using solar filter made of Astrosolar -filter material. Yeasterday there was large group of sunspots, and it was so large, that it was well visible with naked eye too!
I noticed, that it is good idea to keep the exposure time as short as possible. The exposure time can be as short as 1/400 to 1/800 seconds or even shorter. Then camera “freezes” the turbulence of atmosphere better, and the sunspots become more clearly visible. ISO value can be something like 100-400. White balance should be on in daylight- or sunlight setting.
So, today I’m going to carry on the rehearsals. I just might report them here later, so keep on looking my blog! 🙂
Here you can see the results of the rehearsals of yesterday:
Observed phenomena: Solar eclipse
Type of eclipse: Partial, 59%
Type of observation: Positive
Date and time: 1.6.2011, 22:30-23:50
Observing place: Utsjoki, Finland
Observing method: Photography, digiscoping
Technical information about photographing equipment: Camera: Olympus mu 1030 SW, astrosolar filter, L102/1000mm -telescope
Observing conditions: Clear sky
The rare eclipse of the midnight sun was seen 1.-2.6.2011 in many places of Northern Scandinavia, including Utsjoki, Finland. Me and 25 other eclipse enthusiasts were lucky to see the eclipse in the top of the Ailigastunturi fell, Utsjoki, Finland.
I’m not a photgrapher, but I tried to take some photos just through the ocular. I was using my 102/1000mm lens scope, Astrosolar filter and Olympus Mu 1030 SW digital camera.
The eclipse was partial, in the total phase 59% of the Sun was behind the Moon. The weather was favourable during the whole event, sky was clear, although it was slightly chilly. But the coldness wasn’t a problem because the there were a camp fire in the top of the fell where one could grill sausages and drink coffee offered by the village association of Utsjoki! All in all, this eclipse was memorable and fascinating event, which won’t happen again until 2015 here in Finland. Thanks for all those wonderful people who were there with us to share and witness that amazing natural phenomenon!
Observed phenomena: Solar eclipse
Type of eclipse: Partial, 85%
Type of observation: Positive
Date and time: 4.1.2011, 10:25-11:45
Observing place: Ulvila observatory
Observing method: Visual
Observing conditions: Clear sky
A partial, but deep (85%) solar eclipse happened on 4th of January 2011. I was observing this eclipse in Ulvila, Finland in the observatory of astronomy club Porin Karhunvartijat. This time me and other observers in Ulvila were lucky, because the phenomena was visible almost from the beginning to end and sky was clear during the whole duration of the eclipse! Only in the beginning there were some clouds, but they went away! It was fun to watch this eclipse, although it was only a partial eclipse!