This Week’s Sky at a Glance, July 1 – 9 – Sky & Telescope


FRIDAY, JULY 1

■ On the eastern side of the sky, the Summer Triangle holds sway after dark. Its top star is Vega, the brightest on that entire half of the sky. The brightest star to Vega’s lower left is Deneb. Farther to Vega’s lower right is Altair, with fainter Tarazed just above it.

The Milky Way (if you have deep darkness) runs across the Triangle just inside its bottom edge.

As evening grows late and even Altair rises high, look left or lower left of Altair, by hardly more than a fist, for the compact little constellation Delphinus, the Dolphin.

Did you get it? Then try for even fainter, smaller Sagitta, the Arrow. It’s to Altair’s upper left, just a little closer. The Arrow points lower left, past the head of Delphinus.

SATURDAY, JULY 2

■ In twilight this evening, look west for the waxing crescent Moon. Left of the Moon is Regulus, and above the Moon for slightly fainter Algieba, Gamma Leonis, as shown below. Like last month, they form an isosceles (two-sides-equal) triangle.

Binoculars help reveal the color difference between the two stars. Also, Algieba is a wide optical double for binoculars and a much closer true binary (5 arcseconds) for telescopes.

Moon in twilight crossing Leo, July 2-4, 2022
The newly returned waxing crescent Moon crosses Leo in the western twilight.

SUNDAY, JULY 3

■ Again the Moon forms an isosceles triangle with Regulus and Algieba, bit now it’s on the opposite side of them. This time the triangle is also nearly equilateral (in the time zones of the Americas). How close to perfect the equilateral triangle is will depend on your time and place of observation.

MONDAY, JULY 4

■ Low in the northwest or north at the end of these long summer twilights, would you recognize noctilucent clouds if you saw them? They’re the most astronomical of all cloud types, what with their extreme altitude and their formation (in part) on meteoric dust particles. They used to be fairly rare, but they’ve become more common in recent years as Earth’s atmosphere changes. See Bob King’s Nights of Noctilucent Clouds.

■ Earth is at the aphelion of its orbit, its farthest from the Sun for the year: 3% farther than at perihelion in January.

TUESDAY, JULY 5

■ To casual starwatchers or those with an obstructed northern view, Cassiopeia in July might sound as wrong as Christmas in July. But already Cas has passed its lowest evening position of the year and is gradually gaining altitude in preparation for the coming fall and winter. Look for its flattened W shape low in the north-northeast after dark. It’s no longer level.

WEDNESDAY JULY 6

■ First-quarter Moon (exact at 10:14 p.m. EDT). The Moon is in Virgo, with Spica to its left and fainter Gamma Virginis (Porrima) closer to its right or lower right. Brighter Arcturus shines very high above them.

Gamma Vir is a fine close double star for telescopes. It’s current separation is 3 arcsecond and the components are nearly equal in brightness: spectral type F0 V; somewhat larger and hotter than the Sun. They orbit each other in 169 years. The pair is 38 light-years away.

■ Arcturus and Vega are about equally far from straight overhead shortly after dark: Arcturus toward the southwest, Vega toward the east.

Arcturus is pale yellow-orange; Vega is icy bluish white. Star colors are mostly subtle, and different people have an easier or harder time seeing them. To me, the tints of bright stars show a little better in the dark blue of a late-twilight sky than in a fully dark sky.

For instance, compare Vega and Arcturus in twilight and after dark. Do their colors stand out a little better or worse for you one way or the other?

Binoculars, of course, always make star colors much more obvious.

THURSDAY, JULY 7

■ Now Spica shines lower right of the Moon.

■ Look very far left of Spica soon after dark, by 4 or 5 fists at arm’s length, for orange Antares, equally bright. Just before you get to Antares you pass the head (or forehead) of Scorpius: the roughly vertical row of Beta, Delta, and fainter Pi Scorpii.

Delta Sco, the middle one, is the brightest of these. It’s an irregular variable star, a fast-rotating blue subgiant throwing off luminous gas from its equator. It also has a smaller orbiting companion that seems to trigger more activity at 10.5-year intervals. Assumed for centuries to be stable, Delta unexpectedly doubled in brightness in July 2000 and has remained nearly that bright, with fluctuations, for many of the years since. Astronomers are waiting to see whether it will have another flareup any time now, as the companion makes its third pass by the primary star since 2000.

Delta Sco is currently about magnitude 1.9, pretty much where it has stayed for the last 11 years.

FRIDAY, JULY 8

Titan and its atmosphere to occult a star! David Dunham of the International Occultation Timing Association writes, “Titan, the 8th-magnitude moon of Saturn with a thick atmosphere, will occult a star of the same brightness on Saturday morning, July 9. The occultation will be visible from much of North America: south of the northern limit that crosses central California, the southeast corner of Idaho, and north of Winnipeg, Manitoba. The southern limit crosses northwestern South America. Titan will be 3 arcminutes east of Saturn [about 4 ring-diameters].”

“The occultation will last up to 5.5 minutes, shorter especially near the limits. When Titan gets close enough to the star that the two appear to merge, they will appear as a single object of magnitude 7.9. Then, for several seconds, the object will gradually diminish in brightness as the star sinks into Titan’s atmosphere, eventually reaching the magnitude 8.5 of Titan as the star completely disappears. The merged objects will similarly brighten when the star reappears.”

That decline of 0.6 magnitude “will be difficult to notice by eye, but can be recorded well with a sensitive video or CCD camera.” Such recordings “will be able to measure Titan’s atmosphere at a unique latitude of the moon, possibly recording brightening spikes caused by inversion layers in the atmosphere, as have been recorded during many previous occultations by planets and satellites with atmospheres.

“Of special interest may be the central flash that will occur close to the occultation’s central line, when Titan’s entire atmosphere will focus the star’s light, causing it to brighten briefly well above its un-occulted level at central occultation.”

Maps, timetables for hundreds of locations, and more information are on IOTA’s webpage for this event.

“The next observable occultation of a similarly-bright star by Titan won’t occur until 2048, and that will only be visible from Antarctica, so you are encouraged to make what observations you can of this rare event.”

SATURDAY, JULY 9

■ To the left of the waxing gibbous Moon, look for orange Antares and the rest of the star pattern of upper Scorpius.

■ The Big Dipper, high in the northwest after dark, is turning around to “scoop up water” through the evenings of summer and early fall.

 

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This Week’s Planet Roundup

Mercury is dropping out of sight deep in the glow of sunrise.

Venus (magnitude –3.9) rises just as dawn begins. Look for it above the east-northeast horizon. It’s very far lower left of bright Jupiter, by six or seven fists at arm’s length.

Mars and Jupiter, very different at magnitudes +0.4 and –2.5 respectively, rise after midnight and shine in the east-southeast before and during early dawn. Mars is about two fists to Jupiter’s lower left. They continue to move apart, week by week.

Jupiter with Io and its shadow transiting the disc, June 25, 2022
Jupiter’s Great Red Spot was just coming around the planet’s following (right) limb when Christopher Go took this image on June 25th. South is up. Io, just below the spot, has started transiting the planet’s disk with its black shadow far preceding.

The South Equatorial Belt on this side of the planet is currently divided into two thin dark lines. The North Equatorial Belt looks more turbulent than we’ve seen it recently, and it hosts a tiny white outbreak (cloud upsurge) near the central meridian. just above a dark red barge in the North Tropical Zone.

Saturn, magnitude +0.7 in Canricornus, rises in the east-southeast around the end of twilight. It’s highest in the south for best telescopic viewing shortly before dawn (about 2 hours before sunrise).

The little star 1½° below or lower right of Saturn is Delta Capricorni, magnitude 2.8.

Saturn on April 22, 2022
Christopher Go took this image of Saturn on April 22nd. South is up. The brightest part of the rings is, as always, the outer edge of the wide B Ring. Note the black shadow that the rings currently cast upward onto the planet’s globe (in this south-up view). The shading just below the rings here, bordering the bright Equatorial Zone, is not a shadow but the dim C Ring in front of the globe. On the lower left, we see the shadow of the globe on the rings behind it.

Uranus, magnitude 5.8 in Aries, is fairly low in the east before the first light of dawn, between Venus and Mars.

Neptune, magnitude 7.9 at the Aquarius-Pisces border, is high in the southeast before the first light of dawn, between Jupiter and Saturn.


All descriptions that relate to your horizon — including the words up, down, right, and left — are written for the world’s mid-northern latitudes. Descriptions and graphics that also depend on longitude (mainly Moon positions) are for North America.

Eastern Daylight Time, EDT, is Universal Time minus 4 hours. (Universal Time is also called UT, UTC, GMT or Z time.)


Want to become a better astronomer? Learn your way around the constellations. They’re the key to locating everything fainter and deeper to hunt with binoculars or a telescope.

This is an outdoor nature hobby. For an easy-to-use constellation guide covering the whole evening sky, use the big monthly map in the center of each issue of Sky & Telescope, the essential magazine of astronomy.

Once you get a telescope, to put it to good use you’ll need a detailed, large-scale sky atlas (set of charts). The basic standard is the Pocket Sky Atlas (in either the original or Jumbo Edition), which shows stars to magnitude 7.6.

Pocket Sky Atlas cover, Jumbo edition
The Pocket Sky Atlas plots 30,796 stars to magnitude 7.6, and hundreds of telescopic galaxies, star clusters, and nebulae among them. Shown here is the Jumbo Edition, which is in hard covers and enlarged for easier reading outdoors by red flashlight. Sample charts. More about the current editions.

Next up is the larger and deeper Sky Atlas 2000.0, plotting stars to magnitude 8.5; nearly three times as many. The next up, once you know your way around, are the even larger Interstellarum atlas (stars to magnitude 9.5) or Uranometria 2000.0 (stars to magnitude 9.75). And be sure to read How to Use a Star Chart with a Telescope. It applies just as much to charts on your phone or tablet as to charts on paper.

You’ll also want a good deep-sky guidebook. A beloved old classic is the three-volume Burnham’s Celestial Handbook. An impressive more modern one is the big Night Sky Observer’s Guide set (2+ volumes) by Kepple and Sanner.

Can a computerized telescope replace charts? Not for beginners, I don’t think, and not on mounts and tripods that are less than top-quality mechanically, meaning heavy and expensive. And as Terence Dickinson and Alan Dyer say in their Backyard Astronomer’s Guide, “A full appreciation of the universe cannot come without developing the skills to find things in the sky and understanding how the sky works. This knowledge comes only by spending time under the stars with star maps in hand.”


Audio sky tour. Out under the evening sky with your
earbuds in place, listen to Kelly Beatty’s monthly
podcast tour of the heavens above. It’s free.


“The dangers of not thinking clearly are much greater now than ever before. It’s not that there’s something new in our way of thinking, it’s that credulous and confused thinking can be much more lethal in ways it was never before.”
            — Carl Sagan, 1996

“Facts are stubborn things.”
             John Adams, 1770


 





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