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10 more great spring binocular sights

When the weather begins to warm, get your sky-fix by grabbing your binoculars.
RELATED TOPICS: OBSERVING | BINOCULAR OBSERVING
Polaris-Engagement-Ring
Polaris Engagement Ring
Anthony Ayiomamitis
Winter hibernation is officially over. Spring has arrived. Warmer nights make this a great time to pull out your binoculars and enjoy everything the season offers. So, here are 10 great targets to get you started tonight. And because springtime for Northern Hemisphere amateur astronomers means it’s also galaxy season, half the objects I’ve chosen are galaxies.

The next time you are out at night, aim your binoculars at the North Star, Polaris (Alpha [α] Ursae Minoris). If you look carefully, you should see that it belongs to a circlet of fainter stars that observers call the Polaris Engagement Ring. Judging by how bright Polaris appears compared to the other stars, that’s a lot of bling! Of course, in reality, these stars all lie at different distances from Earth, so they do not form an actual star cluster.

Next, move from the Little Dipper to its larger counterpart. From Mizar (Zeta [ζ] Ursae Majoris), the middle star in the Big Dipper’s handle, follow a meandering line of four faint stars eastward. At the fourth star, hook a little to the northeast toward a diamond of four dimmer stars. Can you see a faint smudge next to the diamond’s eastern point? That’s the magnificent spiral galaxy M101. Often mistakenly called the Pinwheel Galaxy, M101 has no common name. (The real Pinwheel Galaxy is M33 in the constellation Triangulum.)

M101 has a low surface brightness, so you’ll probably need averted vision to see any hint of it. But isn’t it amazing that your binoculars can show you a system of billions of stars 21 million light-years away?

You’ll find another spiral galaxy — M106 — by continuing the line connecting Merak (Beta [β] Ursae Majoris) to Phecda (Gamma [γ] Ursae Majoris) along the bottom of the Big Dipper’s bowl. From Phecda, head about a binocular field of view farther east to a triangle made up of the 5th- and 6th-magnitude stars 3, 5, and 7 Canum Venaticorum (CVn).

M106 lies 1.7° south of 3 CVn, the star marking the triangle’s southern tip. The galaxy appears as an oval blur of light tilted south-southeast to north-northwest.
M94
Spiral galaxy M94
R. Jay GaBany
Next, aim just northeast of the halfway point between the stars Cor Caroli (Alpha CVn) and Chara (Beta CVn), and look for a grayish smudge of light. That will be spiral galaxy M94. At magnitude 8.2, M94 may be tough to spot at first, but take a deep breath and give it some time. Through my tripod-mounted 10x50 binoculars, M94 looks like a tiny disk highlighted by a starlike center.

Next, head to Leo the Lion for one of its best galaxies, NGC 2903, 3.9° southwest of magnitude 3.0 Epsilon (ε) Leonis, which lies at the tip of Leo’s sickle. Steadily held binoculars display an indistinct oval glowing at magnitude 9.0. That puts NGC 2903 at the limit of visibility through 50mm binoculars. It’s a challenge to find it.

Now follow a zigzag line of stars 12° south of the triangle that marks Leo’s hindquarters to magnitude 5.0 Tau (τ) Leonis. Tau teams with the magnitude 6.6 star 8.5' to its southeast to create a pretty double through binoculars.

Then, by placing Tau in the upper right (northwest) corner of your binocular field of view, you should spot not one, not two, but three more faint doubles. Add them together and you get an asterism that I call the Double Cross. None of the four pairs is a true physical binary, however, because all eight stars lie at different distances from Earth. But that doesn’t detract from their appearance through binoculars.
M83
Spiral galaxy M83
Scott Rosen
Our next object lies far to the south, but the trip’s worth it. Riding the border separating Hydra and Centaurus, spiral galaxy M83 is bright enough to be visible through nearly all binoculars if you have a low horizon toward the south.

This broad spiral lies about two-thirds of the way from magnitude 3.0 Gamma Hydrae to the magnitude 4.2 star 1 Centauri. Look for a bright stellar nucleus embraced in the soft glow that indicates the sweeping spiral arms.

Head back north and, southeast of the Big Dipper, you’ll find the kite-shaped constellation Boötes the Herdsman. Nu (ν) Boötis, one of spring’s most striking double stars through binoculars, lies east-northeast of the kite’s top.

“Nu Boo” is made up of two colorful 5th-magnitude suns separated by 10'. The western star, dubbed Nu1, appears golden, while eastern Nu2 exudes a bluish tint. Their relationship is only an illusion, however. Nu1 is 840 light-years away, while Nu2 lies “only” 400 light-years from Earth.

Now look northeast of Nu Boo for the trapezoidal head of Draco the Dragon. About two binocular fields to the west, you’ll find a close-set pair of stellar headlights — 16 and 17 Draconis. The separation between them is 1.5', with 17 being the northernmost of the two.

At magnitude 5.1, 17 is also slightly brighter than 16, which shines at magnitude 5.5. Unlike Nu Boo, 16/17 Draconis form a physical system. In fact, research shows that a close-set companion accompanies each component, making this a quadruple star.

For my last target, I’ve chosen an object you may have to observe repeatedly to see. R Coronae Borealis, or “R Cor Bor” as it is affectionately known by amateur astronomers, is an intriguing variable star. You’ll find it 3.4° east-northeast of magnitude 2.2 Alphecca (Alpha Coronae Borealis). Typically, this yellow supergiant shines at about 6th magnitude, but every now and then it dips to 14th magnitude.

Most of these unannounced descents take just a few weeks to occur but last for several months or even years. Then, as unpredictably as it fades, R ascends back to its usual brightness. An obscuring carbon cloud belched from the star occasionally blocks its light, causing this odd behavior. As the cloud slowly dissipates, the star’s luminosity returns. See if you can catch R Cor Bor at its brightest.

With such a wide variety of targets this season, it’s easy to see that, when it comes to touring the spring sky, two eyes are always better than one.
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