On Tuesday (Sept. 8, 2009) and Wednesday (Sept. 9, 2009) the New York metro area will have three great opportunities (local weather conditions permitting) to see the Space Shuttle Discovery and the International Space Station flying in tandem across our evening sky.

Currently, Discovery is docked to the Space Station, but at 3:27 p.m. on Tuesday it will undock from the Station and slowly begin to pull away from it.

On Tuesday, at 7:42 p.m., both Discovery and the Space Station will rise above the SSW horizon and will track toward the ENE. They will appear as two bright moving "stars." Discovery will appear to lead the Space Station across the sky. The Space Station, however, should appear as the brighter of the two objects. They will be separated by roughly 5 or 6 degrees; your clenched fist held at arm's length measures roughly 10-degrees, so the Shuttle and Space Station will be separated by about a "half fist" as they move across the sky. At their highest point, they will stand 33-degrees above the SE horizon and at 7:44:30, as an added bonus, they will pass directly above the planet Jupiter. This pass should take 5 minutes 17-seconds from start to finish.

Also on Tuesday evening, a second pass will begin at 9:18 p.m. Discovery and the Space Station will appear a little farther apart. They will rise above the W horizon and will track toward the NNW. After 2 minutes 29 seconds, however, they will rapidly fade out, 25-degrees above the horizon, as they pass into the Earth's shadow.

On Wednesday, comes the third and final double pass. The two space vehicles will be much farther apart ... the Shuttle will lead the ISS by about one minute. Watch for Discovery at 8:05 p.m. rising above the WSW horizon, moving toward the NE; the Space Station will follow along the same track about a minute later. At their highest point, they will stand 64-degrees above the NW horizon. This pass should take 5 minutes 42-seconds from start to finish.

Discovery is scheduled to return to the Kennedy Space Center in Florida on Thursday (Sept. 10) at 7:06 p.m.

People in the eastern United States will get a great opportunity, weather permitting, to see the Space Shuttle Discovery launched into orbit Wednesday evening, March 11.

The Shuttle flight (STS-119) will be the 28th to rendezvous and dock with the International Space Station (ISS) and the glow of its engines will be visible along much of the Eastern seaboard of the United States.

To reach the ISS, Discovery must be launched when Earth's rotation carries the launch pad into the plane of the ISS's orbit. For mission STS-119, on March 11 that will happen at 9:20:10 p.m. ET, resulting in NASA's first Shuttle flight of 2009 and its second consecutive nighttime (the previous shuttle flight, last November 14, was also a nighttime launch). This launch will bring the Shuttle's path nearly parallel to the U.S. East Coast.

What to expect

For most locations, Discovery will be visible by virtue of the light emanating from its three main engines. It should appear as a very bright, pulsating, fast-moving star, shining with a yellowish-orange glow.

Based on previous night missions, the brightness should be at least equal to magnitude -2; somewhat brighter than Sirius, the brightest star in the sky, which shines brilliantly in the south-southwest during the evening hours. Observers who train binoculars on the Shuttle should be able to see the rapidly moving shuttle resembling a tiny V-shaped contrail.

In the Southeast United States, depending on a viewer's distance from Cape Canaveral, Discovery will become visible anywhere from a few seconds to 2 minutes after it leaves Pad 39-A. The brilliant light emitted by the two solid rocket boosters will be visible for the first 2 minutes and 4 seconds of the launch out to a radius of some 520 statute miles from the Kennedy Space Center.

No matter where you're located, keep in mind that the Shuttle will not get very high above the horizon. In most cases, it will range from roughly 5 to 10 degrees. To get an idea of how high this is, make a fist and hold it out at arm's length. Place the bottom of your fist on the horizon; the top of your fist is 10 degrees

By location:

Southeast U.S. coastline:

Anywhere north of Cape Canaveral, I suggest viewers initially concentrate on the south-southwest horizon (if you are south of the Cape, look low toward the north-northeast).

Mid-Atlantic region:

Look toward the south about 3 to 6 minutes after launch.

Northeast (Washington, Philadelphia, New York, Boston):

Concentrate your gaze low toward the south or south-southeast about 6 to 8 minutes after launch. Of course, as the shuttle gets closer, its azimuth very quickly swings over to the southeast, where in most cases, the point of maximum altitude occurs. I suspect most people will be scanning the horizon from south-southeast in the final couple of minutes of powered ascent . . . if so, you shouldn't miss out on sighting Discovery.

Discovery will seem to flicker, then abruptly wink-out 8 minutes and 23 seconds after launch as the main engines shut-down and the huge, orange, external tank is jettisoned over the Atlantic at a point about 870 statute miles uprange (to the northeast) of Cape Canaveral and some 430 statute miles southeast of New York City. At that moment, Discovery will have risen to an altitude of 341,600 feet (64.7 statute miles), while moving at more than 17,000 mph and should be visible for a radius of about 770 statute miles from the point of Main Engine Cut Off, or MECO.

Should the launch of Discovery be scrubbed on Wednesday, March 11, the launch will be rescheduled on a daily basis, but the time of the launch will occur roughly 23 minutes earlier for each day the launch is delayed (launch window times through March 16).

Before hoping to see the Shuttle streak across your local sky, make sure it has left the launch pad! Watch a television news outlet to verify that Discovery has been launched, or you can watch the launch on your computer via streaming video from NASA-TV.

Good Luck!

When I was a youngster growing up in the Throggs Neck section of The Bronx, the Hayden Planetarium had a service called Dial-a-Satellite.  When you called a special phone number, you could hear a recorded message telling you when and where to look for the brightest naked-eye satellites that occasionally tracked across our local New York skies.  Back then (and I'm speaking now about the mid-1960s) the only really bright satellites readily visible were actually two giant Mylar balloons... measuring about 100-feet in diameter which orbited Earth at altitudes of about 1000 miles.

These were the Echo passive communications satellites: they actually functioned as reflectors, not transmitters. After being placed in orbit around the Earth, a signal would be relayed to one of the two Echo satellites, which were reflected or bounced off its surface, then returned to Earth. The Echo satellites were easily visible to the eye because of their highly reflective surface, but also because of their low orbits; they would appear from below one side of the horizon, cross the sky, then disappear below the opposite horizon after crossing the sky, as happens with all low Earth orbiting satellites. These spacecraft were nicknamed satelloons by those involved in the project. Today, those two Echo satellites are long-gone, but there are now literally thousands of satellites orbiting our Earth.

By far and away, the biggest object now orbiting our Earth is the International Space Station.  And if our skies are reasonably clear on Saturday, November 22, we here in the Tri-State Area will have a great opportunity to see the ISS make a long, high pass across the evening twilight sky.

It will be moving along a track that will take it roughly from Washington to just north of New York and then on toward Boston and the Gulf of Maine; it will briefly overfly our region about an hour after sundown.

It always amazes people when they are told that they can actually see the Space Station—now orbiting 218 miles above Earth—with their own two eyes; no optical aid is needed.  As big as a football field, the ISS is visible by virtue of sunlight shining on its metallic skin and large solar panels.  To the unaided eye it appears as a very bright star that does not twinkle and shines with a slight yellowish-white tinge. Check out this short video of it when it passed over Gloucester, Massachusetts back on Christmas Eve, 2006.

Some assiduous astronomers have even been able to photograph the actual structure of the Space Station by tracking it with their telescope:

On Saturday, the ISS will emerge from above the southwest horizon at 5:32 p.m. Prepare yourself for this ISS pass by getting outside some minutes before it's due to appear and getting yourself acclimated to the sky and the surrounding stars.  Certainly, you will immediately notice two very bright, non-twinkling silvery stars low in the southwest.  They are not stars, but planets; the brighter and lower of the two is Venus, the other will be Jupiter.  Make a fist and hold it out at arm's length.  When the ISS first appears, it should be roughly "two fists" to the right of Jupiter and Venus.  It will appear to move straight up to a point almost directly overhead.  It will then drop down toward the northeast, disappearing about 3-minutes after it first appeared, near to the northeast horizon.  It actually will seem to rapidly fade out toward the end of its track as it moves into the Earth's shadow.

As to just how bright it should get, it should be plainly visible even from brightly lit cities; only Venus and perhaps Jupiter will be brighter.  So during it's 3-minutes of visibility, the Space Station will be one of the three brightest objects in the sky!

And keep in mind that as you look at it, there are ten people who are currently onboard.  Three are semi-permanent residents, staying for upwards of six months on the ISS.  The other seven just recently arrived on the Space Shuttle Endeavour which was launched from Florida on November 14.  The Shuttle is currently docked to the ISS and is scheduled to return to Earth on November 29.

Pretty neat, huh? Tell all your neighbors... and take the kids out for a look.

I'll be interested to see how many plan to check it out, so drop me a line if you see it.