There are now three "superior" planets that are readily visible in our early evening spring sky: Mars, Saturn and Jupiter [Map]. A superior planet is defined as one whose mean distance from the Sun is greater than that of the Earth.
During the late fall and winter, Mars and Saturn were at their best when they reached their respective oppositions to the Sun (Mars on November 7, Saturn on January 27). At these occasions, besides shining at their very brightest and appearing largest in telescopes, these two planets were visible for the entire night, rising at sunset, attaining their highest point in the sky at midnight and setting at sunrise. And this week, Jupiter will be arriving at opposition (on May 4).
But since its November opposition, Mars has diminished to a faint little nothing compared to what it once was. During the month of May, increases its distance from the Earth from 178 to 200 million miles and is in the western evening sky, appearing only a fraction as bright as it did half a year ago. It continues to diminish in brightness from magnitude 1.5 to 1.7, making it comparable in brightness to the nearby "Twin Stars" of Gemini, Pollux and Castor.
Saturn, too has diminished somewhat in brightness since midwinter, but unlike Mars, is still putting on quite a show.
In fact, there are three reasons why the view of Saturn may be even be better right now as compared to the past few months:
First is the weather factor. During the winter season temperatures on many nights for most parts of the country were no doubt quite cold to downright frigid making prospective observers extremely uncomfortable. Now, in recent weeks, there has been a noticeable moderation of the chilly nighttime temperatures; a trend that will continue in the nights to come.
The second reason is the placement of Saturn. A few months ago, you would have had to wait until late in the evening or the middle of the night for it to climb high up into the sky. Now, that wait is over.
The ringed beauty is well situated for viewing as soon as it gets dark. It now appears as a yellowish-white "star" of magnitude +0.3 in the dim constellation of Cancer, and can be found more than halfway up in the south-southwest sky as darkness falls at the beginning of May. Saturn's famous rings, of course, make it the telescopic showpiece of the night sky. The rings are currently tilted at an inclination of 20-degrees toward the Earth.
As we noted in January, you should take full advantage of this circumstance, because, we won't see the rings tipped 20-degrees or more to our line of sight again until the year 2014!
Saturn now sets just after 2 a.m. local daylight and a couple of hours earlier by the end of May. On the night of May 3, a fat crescent Moon will appear to hover well to the right of Saturn as they descend the western sky. But this is only the first of two Moon-Saturn pairings in May. A crescent Moon only about half as wide will appear to pass about 3 degrees above Saturn on the evening of May 31.
The third reason is that Saturn will be especially "showy" in the weeks ahead, especially on June 5 when it will be positioned just south of the beautiful Beehive Star Cluster which appears as a swarm of stellar points in binoculars. This pairing should make for a very pretty sight.
Finally, there is Big Jupiter.
He can be found glaring low above east-southeast horizon at dusk during the early evening hours, the brightest "star," in the sky and inviting inspection the moment you set up a telescope.
Wait, however, until a couple hours after sunset for it to gain some altitude above the horizon haze. Since it will be at opposition on May 4, it will appear highest in the sky, toward the south at around 1 a.m. local daylight time, then descends toward the west for the rest of the night.
As seen from Earth, Jupiter is retrograding, or moving west through the dim stars of the zodiacal constellation of Libra, the Scales. Its dark belts and bright zones with their subtle markings resolves into a series of red, yellow, tan and brown shadings in most telescopes, and of course its four large and bright moons can be followed for hours, even in steadily held binoculars. Through a telescope you can watch as they speed in front of Jupiter, throwing their shadows on the planet, or vanish behind its disk or suddenly becoming eclipsed by its shadow.
Jupiter has the largest apparent disk of any bright object in the sky after the Moon and the Sun. He's truly the superior of the superior planets!
Basic Sky Guides
- Full Moon Fever
- Astrophotography 101
- Sky Calendar & Moon Phases
- 10 Steps to Rewarding Stargazing
- Understanding the Ecliptic and the Zodiac
- False Dawn: All about the Zodiacal Light
- Reading Weather in the Sun, Moon and Stars
- How and Why the Night Sky Changes with the Seasons
- Night Sky Main Page: More Skywatching News & Features
Joe Rao serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for The New York Times and other publications, and he is also an on-camera meteorologist for News 12 Westchester, New York.
| DEFINITIONS |
1 AU, or astronomical unit, is the distance from the Sun to Earth, or about 93 million miles. Magnitude is the standard by which astronomers measure the apparent brightness of objects that appear in the sky. The lower the number, the brighter the object. The brightest stars in the sky are categorized as zero or first magnitude. Negative magnitudes are reserved for the most brilliant objects: the brightest star is Sirius (-1.4); the full Moon is -12.7; the Sun is -26.7. The faintest stars visible under dark skies are around +6. Degrees measure apparent sizes of objects or distances in the sky, as seen from our vantage point. The Moon is one-half degree in width. The width of your fist held at arm's length is about 10 degrees. The distance from the horizon to the overhead point (called the zenith) is equal to 90 degrees. Declination is the angular distance measured in degrees, of a celestial body north or south of the celestial equator. If, for an example, a certain star is said to have a declination of +20 degrees, it is located 20 degrees north of the celestial equator. Declination is to a celestial globe as latitude is to a terrestrial globe. Arc seconds are sometimes used to define the measurement of a sky object's angular diameter. One degree is equal to 60 arc minutes. One arc minute is equal to 60 arc seconds. The Moon appears (on average), one half-degree across, or 30 arc minutes, or 1800 arc seconds. If the disk of Mars is 20 arc seconds across, we can also say that it is 1/90 the apparent width of the Moon (since 1800 divided by 20 equals 90). |
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