It’s exciting to observing the multitude of bright globular clusters, incredibly dense balls of stars that provide striking viewing with even a modest optical aid, that are on show at this time of the year. The largely southern constellation of Ophiuchus can make a good claim to the title of ‘land of the globulars’, hosting as it does seven, big and bright clusters adorned with the coveted Messier designation. 

Luckily for observers at mid-northern latitude, the majority of observers rate the most northerly lying M10 (NGC 6254) and M12 (6218) as the best of the bunch (M14, lying to their east, has a similar declination), the pair lying just three degrees apart and visible in the same 10 × 50 binocular field of view. Both globulars are among the finest to be seen in the entire sky, with small- to medium-aperture telescopes yielding splendid views.

Around late June, both globular clusters have risen sufficiently high in the south-south-east to be observed by about 11pm BST. M10, the more southerly of the pair is marginally the brighter (magnitude +6.6) and larger (~15 arcminutes) of the two; sweep with 10 × 50s about 10 degrees east of a pair of third-magnitude stars called Yed Prior (delta [δ] Oph) and Yed Posterior (epsilon [ε] Oph) to see M10’s faint smudge. 

M10 is a moderately concentrated globular (class XII), for which a modest 80mm (~three inches) refractor will start to pick out (resolve) the outlying individual stars, with full resolution to the core achieved by a 130mm (~five inches) telescope.

M12 is located just over three degrees to the north-west, about a third of the way along an imaginary line strung between M10 and magnitude +3.8 lambda (λ) Oph. It too is easily visible as a nebulous patch in binoculars, glowing at magnitude +6.8. Through a telescope, it’s easy to see M12’s much looser nature (class IX); if you can observe it through a 100mm (four-inch) telescope, then most of its stars should be resolved.

ALMA has observed stars like the Sun at a very early stage in their formation and found traces of methyl isocyanate — a chemical building block of life. This is the first ever detection of this prebiotic molecule towards solar-type protostars, the sort from which our Solar System evolved.

On the morning of Thursday, 7 January, observers in the UK with a clear sky and an unobstructed view low to the southeast at 7am GMT (central British Isles) can see a close conjunction between the old crescent Moon, Venus and Saturn — all three encompassed by the field of view of a typical binocular.

Skywatchers in the UK and Western Europe should cast their gaze low in the southern sky late into the evening of Thursday 6 July to see the 12-day-old waxing gibbous Moon in conjunction with ringed planet Saturn. The pair are separated by just 3½ degrees, nicely framed in a typical 10×50 binocular. For telescope users, the night of 6—7 July is also good for spotting Saturn’s bright moons. We show you what to look for and where.

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