© NASA/Cassini

Saturn at opposition

Dominic Ford, Editor
From the Outer Planets feed

Objects: Saturn
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The sky at

Saturn will reach opposition, when it lies opposite to the Sun in the sky. Lying in the constellation Virgo, it will be visible for much of the night, reaching its highest point in the sky around midnight local time.

From Cambridge, it will be visible between 18:46 and 05:04. It will become accessible at around 18:46, when it rises to an altitude of 10° above your eastern horizon. It will reach its highest point in the sky at 23:55, 50° above your southern horizon. It will become inaccessible at around 05:04 when it sinks below 10° above your western horizon.

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1951 apparition of Saturn

11 Jan 1951 – Saturn enters retrograde motion
20 Mar 1951 – Saturn at opposition
28 May 1951 – Saturn ends retrograde motion

A close approach to the Earth

At around the same time that Saturn passes opposition, it also makes its closest approach to the Earth – termed its perigee – making it appear at its brightest and largest.

This happens because when Saturn lies opposite to the Sun in the sky, the Earth passes between Saturn and the Sun. The solar system is lined up with Saturn and the Earth on the same side of the Sun, as shown by the configuration labelled perigee in the diagram below:


When a planet is at opposition, the solar system is aligned such that the planet lies on the same side of the Sun as the Earth. At this time, the planet makes its perigee, or closest approach to the Earth. Not drawn to scale.

The panels below show a comparison of the apparent size of Saturn when seen at opposition in 1951, and when it is most distant from the Earth at solar conjunction.

Saturn
Saturn at 1951 opposition
Saturn
Saturn at solar conjunction

A comparison of the size of Saturn as seen at 1951 opposition and at solar conjunction.

In practice, however, Saturn orbits much further out in the solar system than the Earth – at an average distance from the Sun of 9.54 times that of the Earth, and so its angular size does not vary much as it cycles between opposition and solar conjunction.

The rings of Saturn

Saturn's rings will appear very close to edge-on at this opposition.

The graph below shows the changing inclination of Saturn's rings over time. The black line indicates their inclination to our line of sight from the Earth. A negative angle indicates that the north pole is tipped towards us, while a positive angle indicates that we see the south pole. An angle close to zero means that Saturn's rings appear close to edge on.

The red line indicates the inclination of the rings to the Sun's line of sight to the planet. Interesting phenomena can occur when the rings are very close to edge-on, if the Sun illuminates one side of the rings, while we see the other. At such times, we see the unilluminated side of the rings.

The inclination of Saturn's rings around the time of its opposition in March 1951. The inclination of Saturn's rings around the time of its opposition in March 1951.

The data used to generate these plots can be downloaded here.

The Seeliger Effect

For a few hours around the exact moment of opposition, it may be possible to discern a marked brightening of Saturn's rings in comparison to the planet's disk, known as the Seeliger Effect.

This occurs because Saturn's rings are made of a fine sea of ice particles which are normally illuminated by the Sun at a slightly different angle from our viewing angle, so that we see some illuminated particles and some which are in the shadow of others.

At around the time of opposition, however, the ice particles are illuminated from almost exactly the same direction from which we view them, meaning that we see very few which are in shadow.

Observing Saturn

At opposition, Saturn is visible for much of the night. When it lies opposite to the Sun in the sky, this means that it rises at around the time the Sun sets, and it sets at around the time the Sun rises. It reaches its highest point in the sky at around midnight local time.

But even when it is at its closest point to the Earth, it is not possible to distinguish it as more than a star-like point of light without the aid of a telescope.

A chart of the path of Saturn across the sky in 1951 can be found here, and a chart of its rising and setting times here.

At the moment of opposition, Saturn will lie at a distance of 8.49 AU, and its disk will measure 19.6 arcsec in diameter, shining at magnitude 0.5. Its celestial coordinates at the moment it passes opposition will be:

Object Right Ascension Declination Constellation Magnitude Angular Size
Saturn 12h02m50s 2°27'N Virgo 0.5 19.6"

The coordinates above are given in J2000.0.

Over the weeks following its opposition, Saturn will reach its highest point in the sky four minutes earlier each night, gradually receding from the pre-dawn morning sky while remaining visible in the evening sky for a few months.

The sky on 23 Nov 2024

The sky on 23 November 2024
Sunrise
06:43
Sunset
16:15
Twilight ends
17:54
Twilight begins
05:03

22-day old moon
Waning Crescent

41%

22 days old

Planets
Rise Culm. Set
Mercury 08:33 12:55 17:17
Venus 10:09 14:32 18:54
Moon 23:09 06:06 12:50
Mars 20:36 04:03 11:30
Jupiter 17:09 00:40 08:11
Saturn 12:58 18:29 23:59
All times shown in EST.

Source

The circumstances of this event were computed using the DE430 planetary ephemeris published by the Jet Propulsion Laboratory (JPL).

This event was automatically generated by searching the ephemeris for planetary alignments which are of interest to amateur astronomers, and the text above was generated based on an estimate of your location.

Related news

20 Mar 1951  –  Saturn at opposition
28 May 1951  –  Saturn ends retrograde motion
24 Jan 1952  –  Saturn enters retrograde motion
01 Apr 1952  –  Saturn at opposition

Image credit

© NASA/Cassini

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