More astronomy without a telescope

Well, January is well amoung us, and here in Wales, January is something of a double edged sword.
Yes,the sun sets comparatively early here, at around 4pm, but along with the early sunset, comes clouds, LOTS of clouds. Now if these clouds were beautifully dainty wispy affairs then this wouldn’t effect my erstwhile hobby of astrophotography. But no, these are grey, heavy thugs, choked FULL of moisture. Added to that, after a long trip across the Atlantic Ocean, these clouds see the lush greenery of the Welsh coast, like a driver sees a rest room after a 300 mile drive.

Suffice to say, there aren’t that many clear evening in Wales that are worth getting my camera out for. But yesterday was one of those evenings.

I own a Nikon D90 with 2 lenses. The standard 18-105mm lens and the slightly more powerful 70-300mm. I used the 18-105mm lens, when I want to take pictures of ‘regions of sky’ or constellations. The other one is employed when I want to take images of specific objects. I’d call myself an enthusiastic, ‘but poorly executing’ amateur…

Yesterday evening, Jupiter lay low in the eastern sky, by far the brightest ‘star’ currently in the night sky. With a suitable exposure, as well as capturing Jupiter you can also capture its larger satellites (moons), the ones Galileo spotted when he looked through the ‘first’ telescope in early 17th Century. Nice to see, that I’m on a technical par with a genius from 400 years ago!! 🙂

Manual focus is a MUST as the sensor in my camera spends an inordinate length of time trying and failing to focus on virtually nothing. Open the lens as wide as it will go, (F number as low as it will go) and “up” the ISO, so it captures more photons of light.

Your rig (camera and tripod) must also be stable. Any wobble or vibration will ruin the picture, so a timer delay or remote control to activate the shutter is a MUST. I normally employ the timer delay.

Jupiter plus Moons

This is what I captured. Even with a 2 second exposure, you can see the items in the image are already starting to trail. The solution, to decrease the exposure time, and “up” the ISO again.

Long exposures are a slightly more complicated due mainly to 2 unrelated, but equally annoying things.

The first, and easier issue to deal with is ‘star trail’ Any exposure of longer than around 20 seconds starts to show ‘star trail’. This is where the stars in the image no longer appear as point of light, but as ‘trails’. This is fine when you want to capture star trails, but somewhat inconvenient when you don’t. This ‘trailing’ is caused by the Earth rotating on its axis, which is a good thing, as it helped make life of this planet possible, and is an aftermath of the formation of the Solar System. But no worries, there’s a way around it. To maintain stars as ‘points of light’, means taking shorter exposures, and ‘upping’ the ISO, or tracking the object. This is a simple rig, so i’ll start by trying the first option.

‘Upping’ the ISO means making the sensor inside the camera more sensitive to light, so you need a less time to capture the same amount of light. Unfortunately, this is where another problem comes in. Light Pollution! This is the ‘glow’ you see from a city. Unwanted light, streaming upwards into the night sky, rather than downwards towards the ground, where (council) planners intended. Its the scourge of astronomers and wastes millions of pounds a year.

Orion and Taurus and light pollution
Orion and Taurus and light pollution

With a bit of suitable adjustment, you can remove ‘some’ of the light pollution. Here are pictures of Orion and Taurus, and if you know where you’re looking you’ll see a faint fussy blob that is Comet Lovejoy.

NightSky with Lovejoy

For those that can’t spot it, i’ve shown its location and its (very rough) track for the next few days in the picture below.

Nighsky with Lovejoy circled

More Astronomy without a Telescope

Some more recent photographs I’ve taken without a telescope.

Jupiter and 4 galilean moons

Taken with my Nikon D90 with a 300mm lens. Click on the image for a larger version.

Jupiter and 4 galilean moons
Jupiter and 4 galilean moons

International Space Station (ISS)

The ISS orbits the Earth every 90 minutes and can sometimes be seen passing overhead. It looks like a quick, silent plane passing from West to East in anything from a minute to 6 minutes, depending on its elevation in the sky. These pictures are of one of the longer passes that occurred just after Christmas 2011.

Each of these images is a 30 second exposure taken at F4.

ISS pass 28th December 2011
Lightbox version

ISS pass 28th December 2011
Lightbox version

The next image LOOKS, like a meteor starting at the left, and ending at the right, but it’s the International Space Station as it moves into the Earth’s shadow. Therefore the picture starts at the right and ends at the left. moving the opposite direction and fading in the Earth shadow. This picture was placed on the front page of flickr as one of the most interesting pictures taken that day. So I was quite happy about that one.
Iss Pass as the sun set
Lightbox Version

For previous articles on taking Astronomical photographs WITHOUT a telescope, see Previous articles of astro images without a telescope

Let me know if you’d like an articles of the camera settings required to take images of Jupiter, The Milky Way, ISS without a telescope.

Astronomy without a telescope

These are just a few shots I’ve taken of astronomical objects you can capture without a telescope. While some objects can obviously be better captured with a telescope, there are some objects that are too large to capture in a telescope. This is where a camera only senario can pay off. I have had various camera during the past 4-5 years. These have included FujiFilm S9500 and my current camera the Nikon D90.

The kind of objects you can capture well with only a camera and tripod include:

  • Moon
  • ISS
  • The Planets (well some)
  • Stars
  • Galaxies

Moon Shot
The ISS (International Space Station) is a wonderful, and quite easy, object to capture. There are plenty of web sites that will show you where, and at what time, the ISS is passing over your locale. Some of these include:
Heavens Above
If you’re on twitter, once you have told twisst where you live, they will send you an twitter message when it calculates when the next viewing of the ISS is. Due to the nature of the orbiting space station, the viewings tend to appear in clumps (sometimes lasting 2 or 3 a night for a few weeks), and tend to occur at sunrise or sunset.

5 Composite images of tonights ISS Pass

Second composite of tonights ISS pass

Here is an image of Jupiter and 3 of its Galilean moons, taken with my Nikon D90 and my 70-300mm zoom lens
Jupiter plus 3 moons?

Just as some people forget that the Sun is our nearest star (NEVER use a camera to take direct images of the SUN), people sometimes forget that our nearest Milky Way is our closest galaxy. Due to the size of the Milky way, some stunning shots (and much better images than mine) of our nearest galaxy can be captured with a fairly modest SLR camera. By selecting different aperture and ISO (how senstive the camera is to light) settings some startlingly different types of shots can be captured.
Milky Way
Milky Way
Combination images
Sometimes you can even combine two categories of objects, as in this image of the Milky Way and the passage of 2 satellites. Neither is the ISS. I was only aiming to capture the Milky way in this image, and didn’t spot the satellite tracks until post production.
Milky Way, Clouds & 2 satellites passes

While no expert on this subject (as yet), my aim is to provide some hints and tips to allow you to take similar shots to these with your SLR camera.