Scientists Await First Call From Beagle

MARSDAILY

Scientists Await Call From Beagle 2

Beagle 2 was targeted to land within an ellipse, 30 km long and 5 km wide, on Isidis Planitia, a large lowland basin near the Martian equator. However, the exact location of the landing site depended on factors such as the angle of descent and wind speed.

The landing site (11�N, 90�E) was chosen for its low elevation, since a greater depth of atmosphere would assist the parachute in braking the lander's descent. Its equatorial location also means that temperatures are warmer, minimising the amount of insulation (and hence mass) needed to protect the lander from the cold Martian night. The relatively flat site was also thought to be neither too dusty nor too rocky to threaten a safe landing (but rocky enough to be interesting for the experiments).

Sunset at the Mars landing site today was at 07:15 GMT (18:35 local solar time). Beagle 2 is scheduled to shut down and conserve power during the cold Martian night, when temperatures may plummet to -80C. Sunrise will take place at 20:02 GMT on Mars (07:02 local solar time).

Beagle 2 was launched with the European Space Agency's Mars Express orbiter on 2 June 2003.

Beagle 2 was named to commemorate Charles Darwin's five-year voyage around the world in HMS Beagle (1831-36). Its main objective is to search for signs of life - past or present - on the Red Planet.

By the time it arrived on the Martian surface, Beagle 2 weighed 33 kg, including 9 kg of science instruments. This is the most ambitious experiment package ever flown in space.

London - Dec 26, 2003
Early Christmas morning GMT time, the Beagle 2 spacecraft reached the surface of Mars at the end of a 250 million mile (400 million km), six-month trek to the Red Planet. Although the first attempt to use NASA's Mars Odyssey orbiter to communicate with the lander three hours later was unsuccessful, scientists and engineers are still awaiting the best Christmas present possible - the first faint signal to tell them that Beagle 2 has become only the fourth spacecraft to make a successful landing on Mars.

"This is a bit disappointing, but it's not the end of the world," said Professor Colin Pillinger, lead scientist for the Beagle 2 project.

"We still have 14 contacts with Odyssey programmed into our computer and we also have the opportunity to communicate through Mars Express after 4 January."

The next window to receive confirmation that Beagle 2 has successfully landed and survived its first night on Mars will be between 10 pm and midnight (GMT) tonight, when its simple carrier signal (rather than the tune composed by Blur) may be picked up by Jodrell Bank radio observatory in Cheshire, UK. This has a much greater chance of success because the giant telescope is able to scan the entire side of the planet facing the Earth.

Another overflight by Mars Odyssey will take place around 18.15 GMT tomorrow evening, followed by daily opportunities to contact Beagle 2 via the Mars Odyssey spacecraft and the radio telescopes at Jodrell Bank and Stanford University in the United States.

There are several possible explanations for the failure of Odyssey to pick up Beagle 2's signal. Perhaps the most likely is that Beagle 2 landed off course, in an area where communication with Mars Odyssey was difficult, if not impossible. Another possibility is that the lander's antenna was not pointing in the direction of the orbiter during its brief passage over the landing site. If the onboard computer had suffered a glitch and reset Beagle 2's clock, the two spacecraft could be hailing each other at the wrong times.

The Beagle 2 lander entered the thin Martian atmosphere at 2.47 GMT today. Travelling at a speed of more than 12,500 mph (20,000 km per hour), the probe was protected from external temperatures that soared to 1,700�C by a heat shield made of cork-like material.

As friction with the thin upper atmosphere slowed its descent, onboard accelerometers were used to monitor the spacecraft's progress. At an altitude of about 4.5 miles (7.1 km), Beagle's software was to order the firing of a mortar to deploy a pilot parachute, followed one minute later by deployment of the 33 ft (10 m) diameter main parachute and separation of the heat shield.

At a few hundred metres above the surface, a radar altimeter was to trigger the inflation of three gas-filled bags. Cocooned inside this protective cushion, Beagle 2 was expected to hit the rust-red surface at a speed of about 38 mph (60 km/h). As soon as the bags made contact with the surface, the main parachute was to be released so that the lander could bounce away unhindered. Like a giant beach ball, the gas bag assembly was expected to bounce along the surface for several minutes before coming to rest at 2.54 GMT.

Finally, a system of laces holding the three gas-bags onto the lander was to be cut, allowing them to roll away and drop Beagle 2 about 3 ft (1 m) onto the surface. The whole descent sequence from the top of the atmosphere to impact was to take less than seven minutes.

The "pocket watch" design of Beagle 2 ensured that it would turn upright irrespective of which way up the little lander fell. After the onboard computer sent commands to release the clamp band and open the lid, the way would be clear to deploy the four, petal-like solar panels and initiate charging of the batteries.

Confirmation of the successful landing would be provided by a musical "beeping" signal of 9 digitally encoded notes, composed by British rock group Blur. This signal should be picked up by Mars Odyssey as it passes overhead and then relayed to Earth.

MARSDAILY

The Secret Of The 25-Hour Day

Pasadena - Dec 23, 2003
Steven Squyres, the principal investigator for the science instruments aboard the Spirit and Opportunity Mars rovers, juggles his commitments to the four space missions he is actively involved in, as well as to his teaching and advising duties, with an energetic ease that makes some wonder if he has found the secret to a 25-hour day.

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