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Jupiter, in Ophiuchus, is a dazzling object this month and on June 10th the planet is at its best for the year when opposition is reached. On this day, it will shine at mag. -2.6 and be visible all night long. It rises in the east at sunset, reaches its highest point in the sky around midnight before setting in the west at sunrise. The planet is unmistakable to the naked eye, and easily brighter than any night time star. Due to its declination of -22 degrees, Jupiter is currently better seen from southern rather than northern latitudes.

Jupiter as imaged by Hubble Space Telescope on April 21, 2014 (credit:- NASA, ESA, and The Hubble Heritage Team (STScI/AURA))

At opposition, Jupiter is located 4.285 AU (641 million kilometers or 398 million miles) from Earth. Its apparent size spans an impressive 46.0 arc seconds. Of all other planets, only Venus can exhibit a greater apparent size than Jupiter.

Popular 7x50 and 10x50 binoculars reveal a very small white or creamy coloured planetary disk without detail. Easily visible are Jupiter's four large Galilean moons (Io, Europa, Ganymede and Callisto). They continuously change position as they orbit the giant planet; sometimes all four are visible at once but often they can be temporarily obstructed as they pass in front of, or behind the planetary disk. Theoretically, all four moons are bright enough to be seen with the naked eye, but close proximity to Jupiter makes this task challenging. However, a few very keen eyed observers have managed to achieve this. For comparison, Io shines at mag. +5.2, Europa at mag. +5.5, Ganymede at mag. +4.8 and Callisto at mag. +5.0. Through a telescope, a wealth of Jupiter's surface details is visible. Even a small 60mm (2.4-inch) refractor at medium/high magnifications will show much detail, including the great northern and southern equatorial belts. Keen eyed observers under good conditions may also be able to see shadow transits of the Galilean moons on the Jovian disk.

A larger 100mm (4-inch) telescope reveals numerous bright and dark spots and the Great Red Spot. This complex weather system has been observed for centuries, but now is diminishing in size. In the late 1800's, it spanned 41,038 kilometres (25,500 miles). In 1979, at the time of the twin Voyager space probes flybys, it had shrunk to 23,336 kilometres (14,500 miles). Recent measurements using from Hubble Space telescope images, put the current diameter at 17,912 kilometres (11,130 miles). This is a far cry from two hundred years ago, and probably some day in the future the great storm will finally disappear once and for all.

Through a 200mm (8-inch) or larger scope, Jupiter is a spectacular sight with well defined features including subtle markings, smaller belts, ovals and festoons in the cloud structure visible. Under good seeing, it's possible to push scopes close to their maximum magnification limits, which is generally accepted to be 50x for every 25mm (1-inch) of aperture.

At opposition, Jupiter co-ordinates are: R.A. = 17h 13m 36s Dec. = -22d 25m 20s.

Jupiter opposition chart on June 10, 2019 (credit:- freestarcharts)

Jupiter opposition chart on June 10, 2019 - pdf format (credit:- freestarcharts)

Jupiter Opposition 2019 Data Table

Distance from Earth (AU)4.285
Distance from Earth (Million Kilometres)641.0
Distance from Earth (Million Miles)398.3
Apparent Diameter (arc secs)46.0
RA (J2000)17h 13m 36.5s
DEC (J2000)-22d 25m 20.2s
Io Magnitude5.2
Europa Magnitude5.5
Ganymede Magnitude4.8
Callisto Magnitude5.9