Taking a photograph of polar star trails is as easy as mounting your camera on a tripod and aiming it north for a time exposure. At the center of the concentric star trails will be a single bright star — Polaris, our North Star. This shot, looking north toward Rabbit Ears Peak, was taken in August 2001.

Jimmy Westlake/courtesy

Taking a photograph of polar star trails is as easy as mounting your camera on a tripod and aiming it north for a time exposure. At the center of the concentric star trails will be a single bright star — Polaris, our North Star. This shot, looking north toward Rabbit Ears Peak, was taken in August 2001.

Jimmy Westlake: The pivot of the sky

Advertisement

— If you were to take a camera and mount it on a stable tripod, aim it at the northern sky after dark and open the shutter for several minutes, your photo would come out looking something like an archery target, full of concentric circular arcs.

Jimmy Westlake

Jimmy Westlake's Celestial News column appears Tuesdays in the Steamboat Today.

Find more columns by Westlake here.

The slow rotation of the Earth on its axis causes the stars to trace out circles through our sky, completing one trip around in 23 hours and 56 minutes. On closer inspection of your photo, you’d notice that there is a single bright star right at the center of the bull’s eye. That star is Polaris, our North Star.

Just by coincidence, the Earth’s axis points almost directly at Polaris so that, as Earth spins, Polaris remains nearly motionless throughout the night – the pivot point for the whole sky. While it isn’t the brightest star in the sky, it is the only star that doesn’t move, so it can be used to pinpoint the direction north better than any compass can.

Polaris is the alpha star in our constellation called Ursa Minor, the Little Bear, but most folks in the United States see it as the star marking the tip of the handle of the unofficial star pattern, the Little Dipper. To locate it, just follow a line through the two stars at the end of the nearby Big Dipper’s bowl, the so-called “pointer stars,” Dubhe and Merak. You can always count on them to point the way to Polaris.

Here are a few things about our pole star that maybe you didn’t know:

• Polaris is the closest pulsating Cepheid variable star to Earth. Stars like Polaris are well advanced in age and are going through a stage of instability, causing them to beat like a heart. Its brightness waxes and wanes by about 15 percent over a period of four days but this slight variability is not easily perceptible to the naked eye.

• Polaris is also the brightest member in a trinary star system located 431 light years from Earth. In other words, what looks like a single star to the unaided eye is really three stars in an intricate dance with each other. One star orbits Polaris with a period of about 30 years and the other takes thousands of years to complete its orbit.

• Polaris has been known by many names down through the centuries. Its current popular title comes from the Latin name “Stella Polaris,” meaning “Pole Star.” Other names include Cynosura (the Dog’s Tail), Lodestar, Navigatoria and Angel Stern (Angel Star).

• Polaris has not always been our pole star. Thanks to the slow, 26,000-year wobble of the Earth on its axis, Polaris exists as our pole star only for a few brief centuries before the axis wanders on to another pole star. Polaris will be closest to the true pole of the sky around the year 2100, then, it will start moving away.

Better enjoy it while it lasts!

Professor Jimmy Westlake teaches astronomy and physics at Colorado Mountain College's Alpine Campus. His "Celestial News" column appears weekly in the Steamboat Today newspaper and his "Cosmic Moment" radio spots can be heard on local radio station KFMU. Check out Jimmy’s astrophotography website at www.jwestlake.com.

Comments

Use the comment form below to begin a discussion about this content.

Requires free registration

Posting comments requires a free account and verification.