Welcome to SkyEye, your guide to this month's celestial events.
| Date | 45° N | 30° S | Event | |
|---|---|---|---|---|
| 1 | Sun | |||
| 2 | Mon | Full Moon | ||
| 3 | Tue | |||
| 4 | Wed | Moon occults the Pleiades: visible from about 0200 UT in Central America, northern South America and western Africa. | ||
| 5 | Thu | Mercury at superior conjunction | ||
| 6 | Fri | |||
| 7 | Sat | Moon at perigee | ||
| 8 | Sun | |||
| 9 | Mon | Last Quarter Moon | ||
| 10 | Tue | Jupiter at east quadrature | ||
| 11 | Wed | |||
| 12 | Thu | |||
| 13 | Fri | |||
| 14 | Sat | |||
| 15 | Sun | Neptune at east quadrature | ||
| 16 | Mon | New Moon | ||
| 17 | Tue | Perfect! The Leonids peak just after New Moon. No meteor storm is expected but theory suggests that this may be a particularly good year to observe this shower. | ||
| Moon occults Antares: too close to the Sun to observe. | ||||
| 18 | Wed | |||
| 19 | Thu | |||
| 20 | Fri | |||
| 21 | Sat | The Alpha Monocerotids also have dark skies in order to show off their stuff. | ||
| 22 | Sun | Moon at apogee | ||
| 23 | Mon | |||
| 24 | Tue | First Quarter Moon | ||
| 25 | Wed | |||
| 26 | Thu | |||
| 27 | Fri | |||
| 28 | Sat | |||
| 29 | Sun | |||
| 30 | Mon | |||
The word planet is derived from the Greek word for "wanderer." Unlike the background stars, planets seem to move around the sky, keeping mostly to a narrow track called the ecliptic, the path of the Sun across the stars. Dwarf planets and small solar-system bodies including comets, are not so constrained, often moving far above or below the ecliptic.
Constellations are patterns of stars in the sky. The International Astronomical Union (IAU) recognises 88 different constellations. The brightest stars as seen from the Earth are easy to spot but do you know their proper names? With a set of binoculars you can look for fainter objects such as nebulae and galaxies or some of the closest stars to the Sun.
Descriptions of the sky for observers in both the northern and southern hemispheres are available for the following times this month. Subtract one hour from your local time if summer (daylight savings) time is in effect.
| Local Time | Northern Hemisphere | Southern Hemisphere |
|---|---|---|
| 1730 hours (1830 hours summer time) | 45° N | 30° S |
| 1930 hours (2030 hours summer time) | 45° N | 30° S |
| 2130 hours (2230 hours summer time) | 45° N | 30° S |
| 2330 hours (0030 hours summer time) | 45° N | 30° S |
| 0130 hours (0230 hours summer time) | 45° N | 30° S |
| 0330 hours (0430 hours summer time) | 45° N | 30° S |
| 0530 hours (0630 hours summer time) | 45° N | 30° S |
Much of this information can be found in this month's issue of your favourite amateur astronomy magazine available in your local bookshop. Another excellent source is the current edition of the Astronomical Calendar by Guy Ottewell and published by the Universal Workshop at Furman University.
The SkyEye banner features a view of Saturn from its satellite Iapetus and is courtesy of NASA/JPL/Space Science Institute. Of all the major satellites of Saturn, Iapetus is the only one with a significant orbital inclination. Thus, whilst the rings appear nearly edge-on from all of the other major satellites, from Iapetus they are usually seen at a tilt. This image was taken during the Cassini-Huygens mission on 10 September 2007 and consists of 15 red, green and blue spectral filter images.
Copyright © 1995-2009 by David Harper and L.M. Stockman