Eta Aquarid

Meteor Shower from Halley’s Comet Peaks This Weekend.

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some of the remnants of the most famous of comets will briefly light up the early morning sky

The famed Halley’s Comet made its last pass through the inner solar system in 1986 and is not due back until the summer of 2061. But each time Halley sweeps around the sun, it leaves behind a dusty trail — call it “cosmic litter” — that is responsible for two meteor showers on Earth each year. The first of those “shooting stars” displays, the Eta Aquarid meteor shower, will peak on Sunday.

The Eta Aquarid meteor shower occurs each year in early May because the orbit of Halley’s Comet closely approaches the orbit of Earth in two places. The first is the May timeframe, which leads to the Eta Aquarids. The other point occurs in mid-October, producing the Orionid meteor shower.

When and Where to Watch

The Eta Aquarid meteor shower is predicted to peak early on Sunday morning, but dark skies and clear weather are vital to observe them. Under ideal conditions (a dark, moonless sky) about 55 to 60 of these very swift meteors might be seen per hour.

The meteor shower appears at about one-quarter of its peak strength for several days before and after May 5. This is a very good year to look out for the Eta Aquarid meteors from Halley’s Comet because the moon will be at a thin, waning crescent phase, and just 20-percent illuminated and providing little interference for viewing these swift streaks of light.

From places south of the equator, the Eta Aquarids typically put on very good show. Australian stargazers consider them to be the best meteor display of the year.

But for those watching from north of the equator, it’s a much different story.

Where to look

The apparent origin point of a meteor shower in the night sky is known as its radiant. For the Eta Aquarids, the radiant is found within the “Water Jar” of the constellation Aquarius, which begins to rise above the eastern horizon around 3 a.m. your local time. Unfortunately, this constellation never really gets very high as seen from north temperate latitudes. And soon after 4 a.m. local time, the morning twilight will begin to brighten the sky.

So if you are hoping to see up to 60 meteors per hour, forget it. With the radiant so low above the horizon, the majority of those meteors will be streaking below the horizon and out of sight.

In fact, from North America, typical Aquarid rates are only 10 meteors per hour at 26 degrees north latitude (Miami, Fla., or Brownsville, Texas), 5 per hour at around 35 degrees latitude (Los Angeles, Calif., or Cape Hatteras, N.C.) and practically zero to the north of 40 degrees (New York, Chicago, and Philadelphia).

“So,” you may be thinking, “What’s the point of getting up before dawn to watch?”

The answer: Despite the long odds, you still just might see something spectacular.

Catch an Earthgrazer, or comet crumb

For most, perhaps the best hope is perhaps catching a glimpse of a meteor emerging from the radiant that will skim the atmosphere horizontally — much like a bug skimming the side window of an automobile.

Meteor watchers call such shooting stars “earthgrazers” and they are known forspectacularly long, colorful, long-lasting trails.

“These meteors are extremely long,” Robert Lunsford of the International Meteor Organization explained. “They tend to hug the horizon rather than shooting overhead where most cameras are aimed.”

“Earthgrazers are rarely numerous,” NASA meteor expert Bill Cooke, a member of the Space Environments team at the Marshall Space Flight Center has said. “But even if you only see a few, you’re likely to remember them.”

If you do catch sight of one early these next few mornings, remember that you are likely seeing the incandescent streak produced by material which originated from the core of Halley’s Comet.

So it is that the shooting stars that we have come to call the Eta Aquarids are really an encounter with the traces of a famous visitor from the depths of space and from the dawn of creation.

Source: Space.com

 

Meteor Shower and Eclipses of Sun to Grace May Sky.

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A meteor shower and a cosmic “ring of fire” will dominate the night sky this month

The annual Eta Aquarid meteor shower and an annular solar eclipse both occur at the beginning of May, while a less impressive lunar eclipse is set to take place at the end of the month, but that isn’t all. Constellations, planets and other celestial bodies can also be spotted in various parts of the sky throughout the month, weather permitting.

“As night falls, look for Jupiter shining in the west,” Nancy Calo from the Space Telescope Science Institute said during her narration of a video highlighting May stargazing. “The best views of Jupiter will come early in the month, when it is highest in the sky. In the closing days of May, Mercury and brilliant Venus will join Jupiter low in the west. A telescope will provide better views of the planets.” [See sky maps for May’s best stargazing events]

A telescope isn’t required to see the Eta Aquarid meteor shower this weekend, however. The shower is expected to peak after midnight on May 5, and viewers can expect to see about 10 meteors per hour coming from the eastern part of the sky, Calo said. The Eta Aquarids are one of two meteor showers created by dusty debris left over from the famed Halley’s Comet. The Orionid meteor shower in October is the other.

On May 10, a few days after the meteor shower’s peak, stargazers in certain parts of the world can see an annular solar eclipse that should make the sun look like a shining ring in the sky. Annular solar eclipses are also known as “ring of fire” eclipses because they occur when the moon does not completely block the sun, leaving a bright ring visible around the moon.

Weather permitting, some parts of the world will get a partial view of the eclipse — created when the moon passes between the sun and the Earth, obscuring the star — but Australia and the southern part of the Pacific Ocean will get the best showing. It will not be visible from North America.

A minor lunar eclipse will take place on May 24, but viewers might not be able to tell.

Although the eclipse will be visible to stargazers in South America, western Europe and western Africa, the full moon will only pass through the Earth’s penumbral shadow. This part of the planet’s shadow still receives some direct sunlight, making it difficult to see a difference between regular moonlight and the dimmer light of the eclipse.

May’s lunar eclipse will most likely be less impressive than the partial lunar eclipse in April. During that eclipse, the moon dipped into the umbra — the part of Earth’s shadow that doesn’t receive any direct sunlight — which obscured part of the rocky face of the satellite in darkness.

A smattering of deep sky objects will also be visible throughout the month.

Jupiter can be seen in the western part of the sky in early May and Saturn appears in the southeastern sky after sunset.

“Looking toward the south, we’ve turned away from the crowded center of our Milky Way Galaxy,” Calo said. “Thus we see farther into the universe.”

By using a pair of binoculars, stargazers can peer into the Virgo cluster of galaxies, spot the Whirlpool Galaxy and see the M64 spiral galaxy, Calo added.

Source: Scientific American