Rosetta Spacecraft Set to Deploy Lander to Surface of Comet 67P/Churyumov–Gerasimenko

The Rosetta spacecraft uses its 11 scientific instruments to study the surface of comet  67P/Churyumov–Gerasimenko
The Rosetta spacecraft uses its 11 scientific instruments to study the surface of comet 67P/Churyumov–Gerasimenko Credits: NASA

After a decade traveling through the solar system, Rosetta is preparing to write history 

This image taken by Rosetta shows the primary landing site of Philae
This image taken by Rosetta shows the primary landing site of Philae. Credits: ESA/Rosetta

The image above shows the primary landing site of Philae, Rosetta’s lander, which is expected to make a soft landing on comet 67P/Churyumov–Gerasimenko at Site J, or backup Site C, on Nov. 12, 2014. Image credit: ESA/Rosetta

Between Mars and Jupiter (Oct. 11, 2014) –

After two weeks of analysis of possible trajectories the flight dynamics and operations teams of the European Space Agency (ESA) is preparing to make the first soft landing of a robot on a comet on Nov. 12, 2014. Expectations are for Rosetta to release Philae at around 08:35 UTC (12:35 a.m PST; 9:35 a.m. Central European Time), if Site J is the target, at a height of 14 miles (22.5 kilometers) above the center of the comet.

Philae will release from Rosetta on Nov. 12 and hopefully make a soft landing on comet  67P/Churyumov–Gerasimenko
Philae will release from Rosetta on Nov. 12 and hopefully, make a soft landing on comet 67P/Churyumov–Gerasimenko Image credit: ESA

If all goes as expected, Philae should make a soft landing about seven hours later, around 7:35 a.m. PST. Here on Earth, mission specialists will get the confirmation of a successful landing 28 minutes and 20 seconds later, due to the time it takes the signal to travel between Rosetta and the Earth. This means we should get word on whether Philae made a successful landing around 16:00 UTC (8 a.m PST; 5 p.m CET).

Should the decision be made to try for backup Site C, instead of Site J, the lander will be released at 13:04 UTC (5:04 a.m. PST; 2:04 p.m. CET) at a distance of about 7.8 miles (12.5 kilometers) from the center of the comet?

In the backup scenario, Philae should land about four hours after release, which means the confirmation signal should arrive at Earth somewhere around 17:30 UTC (9:30 a.m. PST; 6:30 p.m CET). All times are estimates subject to uncertainties of minutes.

The Rosetta team will make a final decision on the landing site on October 14, 2014, after they review the lander to see if it’s ready for launch, and take a look at the high-resolution images of the landing sites they’ll take between now and Nov. 12.

During the week including Oct. 14, the ESA is planning on having a contest to determine the best name for the landing site selected. This is your chance to stamp your name on Rosetta and its mission. Check the Rosetta mission website to sign up for the competition and check out the rules.

A joint space mission spearheaded by the European Space Agency, but with help from NASA and friends, the Rosetta Space Mission is expected to enlighten us about the origins of comets and possibly life on Earth. Comets are time capsules containing material left over from the time when the solar system and Earth were being formed. Scientists will study the gas, dust, and structure of the interior of the comet to unlock secrets about the past, evolution and possible future of Earth and the solar system. They also hope to shine a light on the origins of Earth’s water and how life came to exist on one out of the way little planet in the middle of nowhere.

After Philae has landed, it will begin to study the comet up close using 10 scientific instruments. Rosetta will continue to study the comet and its composition and structure over the next year and a bit as they travel together around the sun and then back to the outer solar system.

Hundreds of year from now, when future archaeoastronomers discover Philae sitting on the surface of comet 67P/Churyumov–Gerasimenko, will it create the energy and wonder created by its namesake – the Rosetta Stone – discovered in 1799 by French soldier Pierre-Francois Bouchard near the town of Rosetta in Egypt.

Philae will be sitting

Will scientists hundreds of years in the future argue over the true origin and meaning of the device they discover on a lonely comet circling the sun? Will it create widespread public interest in determining how, why and when it came to rest on a piece of the original building blocks of the solar system? Time will tell the story sometime in the future. A story that could inspire others to delve deeper into the mystery of the solar system and life on Earth.

You can find additional information on the current status of the Rosetta mission here.

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Astronomers can provide a rough estimate of the number of stars in a galaxy

The Possibility of Intelligent Lifeforms Existing in the Universe

Crunching the numbers leaves little doubt in the minds of many scientists and broad thinkers

Astronomers can provide a rough estimate of the number of stars in a galaxy
Astronomers can provide a rough estimate of the number of stars in a galaxy

Space news – We can estimate the number of galaxies and thus approximately how many stars there are in the universe. Can we extrapolate the number of possible intelligent lifeforms in the universe? Lifeforms with an advanced civilization and technology?

Astronomers also have a very rough estimate for the number of galaxies they see
Astronomers also have a very rough estimate for the number of galaxies they see

NASA astronomers are finding more and more planets orbiting distant stars using the Hubble Space Telescope. Space scientists on Earth find microbes still surviving after thousands of years frozen in ice and thriving in environments we once thought hostile to life.

NASA astronomers have confirmed the existence of exo-planets orbiting distant stars
NASA astronomers have confirmed the existence of exoplanets orbiting distant stars

Astronomers estimate the Milky Way contains around 400 billion suns, give or take a few. Sol is only one of these stars. They also estimate the universe holds a minimum of 125 billion galaxies.

If we crunch the numbers a bit, we find the universe contains roughly 400 X 125 billion billion, or 50,000 billion billion stars. We won’t at this time include the number of planets per sun in the universe, which would make our estimate even less precise. NASA space scientists and astronomers haven’t determined this number and the knowledge we have now isn’t sufficient enough to come to even a rough estimate.

How many of these suns have intelligent life living on a planet in orbit with a highly advanced civilization and technology? In future articles, we’ll try to narrow this number down a bit, by estimating the number of intelligent life forms in the Milky Way.

Let me know what you think? Take part in our poll below.

Warren Wong, 

Managing Editor

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