Saturn Stands (Relatively) High.
Last quarter Moon falls on June 6th, when Saturn rises about 1% hours after the Sun sets. By the end of twilight, Saturn's still low, only about 7[degrees] above the southeastern horizon. And that's the trouble for observers at northerly latitudes: Saturn stays low in the south. Shining just above the Sagittarius Teapot, Saturn's at declination -22[degrees], about 1/2[degrees] farther south than it was at opposition last year. This southern creep continues until 2021, when the declination will begin to improve for northern observers.
On the night of June 6-7, Saturn eventually climbs to about 27[degrees] high, transiting about 2:30 a.m. local time. The sky starts brightening with morning twilight about an hour later, but that's still a sizeable window for some good looks. At new Moon on June 13th, Saturn is more than 10[degrees] high by the time full darkness falls, and about 27[degrees] high at 2 a.m. when the planet transits.
Saturn subtly brightens over the course of the month, reaching magnitude +0.0 by the 23rd. It dims again to +0.2 by the end of July, but that still makes for a bright light in the night sky. Saturn's equatorial diameter shrinks ever so slightly during the same period, but we're talking a change of around one quarter of an arcsecond--it's essentially 18" for all of June and July.
You won't notice much of a change in the tilt of Saturn's rings, either. They'll be open to 25.7[degrees] for June and 26.1[degrees] for July. That's not quite the maximum 27[degrees], but still an almost ideal view. Small scopes will show the rings and in steady seeing can reveal the Cassini Division, the dark gap between the A and the brighter B ring. The ghostly C ring can be difficult to see even in images. Start searching at the points where the ring crosses the globe, then follow it across the face of the planet (if you can).
If you observe several days in a row, you might notice that the rings appear brighter around the date of opposition. This phenomenon is attributed to the Seeliger effect (sometimes called an opposition surge). Because the Sun is behind us, the shadows of the ice and dust particles that make up the rings are hidden. Sunlight hits the rings straight on, and the back-scattered light pumps up the brightness from our vantage point in the solar system.
These times assume that the spot will be centered at System II longitude 290[degrees]. If the Red Spot has moved elsewhere, it will transit 1 2/3 minutes earlier for each degree less than 290[degrees] and 1% minutes later for each degree more than 290[degrees].
Features on Jupiter appear closer to the central meridian than to the limb for 50 minutes before and after transiting. A light blue or green filter slightly increases the contrast and visibility of Jupiter's reddish and brownish markings.
The table below lists all the interactions of Jupiter with its satellites and their shadows for June. Scan for events when Jupiter will be visible in the evening for your time zone.
Caption: Saturn's rings were tilted 26.5[degrees] from our line of sight when Damian Peach captured this image with the 106-cm f/17 Cassegrain at Pic du Midi Observatory on June 11, 2017. Notice that Saturn's south pole was entirely occluded by the nearly wide-open rings. South is up.
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|Title Annotation:||JUNE 2018 OBSERVING: Celestial Calendar|
|Publication:||Sky & Telescope|
|Date:||Jun 1, 2018|
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