Rosetta Spacecraft Says Its Final Goodbye

An image of the surface of comet 67P/Churyumov-Gerasimenko worth a thousand words

The OSIRIS narrow-angle camera aboard the Space Agency's Rosetta spacecraft captured this image of comet 67P/Churyumov-Gerasimenko on September 30, 2016, from an altitude of about 10 miles (16 kilometers) above the surface during the spacecraft’s controlled descent. The image scale is about 12 inches (30 centimeters) per pixel and the image itself measures about 2,000 feet (614 meters) across. Credits: ESA/Rosetta/MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA
The OSIRIS narrow-angle camera aboard the Space Agency’s Rosetta spacecraft captured this image of comet 67P/Churyumov-Gerasimenko on September 30, 2016, from an altitude of about 10 miles (16 kilometers) above the surface during the spacecraft’s controlled descent. The image scale is about 12 inches (30 centimeters) per pixel and the image itself measures about 2,000 feet (614 meters) across.
Credits: ESA/Rosetta/MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA

Space news (solar system science: planetary science; cometary science) – 66 feet above the surface of comet 67P/Churyumov-Gerasimenko; in a controlled descent –

Rosetta's last image of Comet 67P/Churyumov-Gerasimenko, taken shortly before impact, at an estimated altitude of 66 feet (20 meters) above the surface. The image was taken with the OSIRIS wide-angle camera on 30 September. The image scale is about 5 mm/pixel and the image measures about 2.4 m across. Credits: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA
Rosetta’s last image of Comet 67P/Churyumov-Gerasimenko, taken shortly before impact, at an estimated altitude of 66 feet (20 meters) above the surface. The image was taken with the OSIRIS wide-angle camera on 30 September. The image scale is about 5 mm/pixel and the image measures about 2.4 m across.
Credits: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA

The image above is the last thing the OSIRIS narrow-angle camera aboard the European Space Agency”s (ESA)Rosetta spacecraft captured before it hit the surface of comet 67P/Churyumov-Gerasimenko at 4:19 a.m. PDT (7:19 a.m. EDT/1:19 p.m. CEST) on September 30, 2016. During this controlled crash landing of the first spacecraft in history to rendezvous and escort a comet as it orbits the Sun. Astronomers were able to conduct an additional study of the gas, dust and plasma environment close to the surface of the comet and take these high-resolution images.

Comet from 5.7 km – narrow-angle camera Credit: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA
Comet from 5.7 km – narrow-angle camera
Credit: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA

The OSIRIS narrow-angle camera also captured the image shown at the top of the page from a height of around 10 miles (16 kilometers) from the surface of comet 67P/Churyumov-Gerasimenko. This image spans a distance of around 2,000 feet (614 meters) across the comet’s icy and volatile surface. Attempting to walk across such a surface as Bruce Willis and his drilling crew did in the movie Armageddon is going to be tricky at best.

OSIRIS narrow-angle camera image with Philae, 2 September Credit: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA
OSIRIS narrow-angle camera image with Philae, 2 September
Credit: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA

It might seem like a waste to purposely crash the Rosetta spacecraft on comet 67P/Churyumov-Gerasimenko, but in the end, it’s probably the best solution. This comets headed out beyond the orbit of Jupiter, which is further from the Sun than the spacecraft has traveled before, and there wouldn’t be enough solar power to operate its systems. Communicating with the spacecraft’s also about to become difficult for a month, with the Sun being close to the line-of-sight between Earth and Rosetta during this time period.

Close-up of the Philae lander, imaged by Rosetta’s OSIRIS narrow-angle camera on 2 September 2016 from a distance of 2.7 km. The image scale is about 5 cm/pixel. Philae’s 1 m-wide body and two of its three legs can be seen extended from the body. The images also provide proof of Philae’s orientation. The image is a zoom from a wider-scene, and has been interpolated. More information: Philae found! Credit: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA
Close-up of the Philae lander, imaged by Rosetta’s OSIRIS narrow-angle camera on 2 September 2016 from a distance of 2.7 km. The image scale is about 5 cm/pixel. Philae’s 1 m-wide body and two of its three legs can be seen extended from the body. The images also provide proof of Philae’s orientation.
The image is a zoom from a wider-scene, and has been interpolated.
More information: Philae found!
Credit: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA

Rosetta mission complete

Feel happy for Rosetta and team, they both did the job, and then some in the end. It took a decade of careful planning and travel to rendezvous with comet 67P/Churyumov-Gerasimenko and write history. Just one month and two days later, a smaller lander named Philae touched down on the surface of the comet. It bounced on the surface a few times, before finally setting down. During the next few days, it took the first images ever of a comet’s surface up close and sent back important data planetary scientists will use to look for clues to the role comets played in the formation of the planets 4.5 billion years ago. Clues they hope to use to learn more about the origin and evolution of our solar system and possibly the formation of solar systems in general.

JPL/NASA Rosetta Team From left to right: Dongsuk (Don) Han- Outer Planet Navigation Bruce Tsurutani - Rpc-mag Essam Heggy - Consert Sam Gulkis - Miro Danny Tran - Aspen Josh Doubleday - Aspen Gregg Rabideau - Aspen Tim Koch - Miro Martina Troesch - Software Barbara Hesselgesser - Acquisitions Paul Von Allmen - Miro Belinda Arroyo - DSN Sophia Lee - Scheduling Paul Friz-Rosetta Shadow Project Liz Barrios - Illustrator Paul Springer - Miro Steve Chien - Aspen Cynthia Kahn-Former SE David Delgado - Public Engagement Claudia Alexander - Project Scientist Grant Faris - MA Shyam Bhaskaran - NAV Mark Hofstadter - Miro Seungwon Lee - Miro Lei Pan - Miro Jacky Bagumyan - Assistant Adans Ko - MA Sarah Marcotte - Mars consultant Charlene Barone - Rosetta Web Project Lead Dan Goods - Creative Director Virgil Adumitroale - Miro Richard Flores - Acquisitions Artur Chmielewski - Rosetta Project Manager Veronica McGregor - Social Media Credits: NASA/JPL
JPL/NASA Rosetta Team
From left to right:
Dongsuk (Don) Han- Outer Planet Navigation
Bruce Tsurutani – Rpc-mag
Essam Heggy – Consert
Sam Gulkis – Miro
Danny Tran – Aspen
Josh Doubleday – Aspen
Gregg Rabideau – Aspen
Tim Koch – Miro
Martina Troesch – Software
Barbara Hesselgesser – Acquisitions
Paul Von Allmen – Miro
Belinda Arroyo – DSN
Sophia Lee – Scheduling
Paul Friz-Rosetta Shadow Project
Liz Barrios – Illustrator
Paul Springer – Miro
Steve Chien – Aspen
Cynthia Kahn-Former SE
David Delgado – Public Engagement
Claudia Alexander – Project Scientist
Grant Faris – MA
Shyam Bhaskaran – NAV
Mark Hofstadter – Miro
Seungwon Lee – Miro
Lei Pan – Miro
Jacky Bagumyan – Assistant
Adans Ko – MA
Sarah Marcotte – Mars consultant
Charlene Barone – Rosetta Web Project Lead
Dan Goods – Creative Director
Virgil Adumitroale – Miro
Richard Flores – Acquisitions
Artur Chmielewski – Rosetta Project Manager
Veronica McGregor – Social Media
Credits: NASA/JPL

Watch this YouTube video of the last few hours of ESA’s Rosetta mission.

Read and learn more about planetary scientists anticipation of studying a sample of material from the surface of comet 67P/Churyumov-Gerasimenko, material left over from the early moments of the birth of the solar system.

Read about comet 67P/Churyumov-Gerasimenko.

Prepare to journey to comet 103P/Hartley.

Join the space journey of NASA.

Learn more about comet 67P/Churyumov-Gerasimenko here.

Read and learn more about the discoveries of the Rosetta spacecraft.

Learn more about the work of the ESA.

Read and learn more about comets here.

 

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NASA WISE and Spitzer Telescopes Discover Titanic Galaxy Cluster

Astronomers say this monster was one of the biggest galaxy clusters of its time

The galaxy cluster called MOO J1142+1527 can be seen here as it existed when light left it 8.5 billion years ago. The red galaxies at the center of the image make up the heart of the galaxy cluster. Credits: NASA/JPL-Caltech/Gemini/CARMA
The galaxy cluster called MOO J1142+1527 can be seen here as it existed when light left it 8.5 billion years ago. The red galaxies at the center of the image make up the heart of the galaxy cluster.
Credits: NASA/JPL-Caltech/Gemini/CARMA

Space news (November 07, 2015) – 8.5 billion light-years away in a remote part of the cosmos –

NASA astronomers conducting a survey of galaxy clusters using the Spitzer Space Telescope and Wide-field Infrared Survey Explorer (WISE) recently viewed one of the biggest galaxy clusters ever recorded. Called Massive Overdense Object (MOO) J1142+1527, this monster galaxy cluster is in a very distant part of the universe and existed around 4 billion years before the birth of Earth.

8.5 billion years have passed since the light seen in the image above reached us here on Earth. MOO J1142+1527 has grown bigger during this time as more galaxies were drawn into the cluster and become even more extreme as far as galaxy clusters go. Containing thousands of galaxies, each with hundreds of billions of individual suns, galaxy clusters like this are some of the biggest structures in the cosmos. 

It’s the combination of Spitzer and WISE that lets us go from a quarter billion objects down to the most massive galaxy clusters in the sky,” said Anthony Gonzalez of the University of Florida in Gainesville, lead author of a new study published in the Oct. 20 issue of the Astrophysical Journal Letters.

Based on our understanding of how galaxy clusters grow from the very beginning of our universe, this cluster should be one of the five most massive in existence at that time,” said co-author Peter Eisenhardt, the project scientist for WISE at NASA’s Jet Propulsion Laboratory in Pasadena, California.

Astronomers conducting this survey will now spend the next year sifting through more than 1,700 more galaxy clusters detected by the combined power of NASA’s Spitzer Space Telescope and Wide-field Infrared Survey Explorer looking for the largest galaxy clusters in the cosmos. Once they find the biggest galaxy clusters in the universe, they’ll use the data obtained to investigate their evolution and the extreme environments they’re found.

Once we find the most massive clusters, we can start to investigate how galaxies evolved in these extreme environments,” said Gonzalez.

You can learn more about the mission of the Spitzer Space Telescope here.

Discover the voyage and discoveries of WISE here.

Learn more about galaxy clusters here.

Read about the space missions of NASA here.

Learn more about the final days of stars.

Read about the Little Gem Nebula.

Read about plans for man to travel to Mars in the decades ahead.

Concerned Earthlings Planning on Moving to an Exoplanet in the Far Future

No need not worry, according to planetary scientists, the majority of potential cradles for a new human Genesis have yet to be born

Mars is one of the newest location humans plan on visiting and possibly inhabiting in the near future. This spot looks promising, but getting the work crew to this spot is a killer. Realtors of the future will have to work on this one a bit. Image credit: NASA
Mars is one of the newest location humans plan on visiting and possibly inhabiting in the near future. This spot looks promising, but getting the work crew to this spot is a killer. Realtors of the future will have to work on this one a bit. Image credit: NASA

Space news (October 24, 2015) – The journey to Mars –

Earthlings thinking about moving to Mars, or another planet, with the first spacecraft leaving, can breathe a sigh of relief. Peter Behroozi and Molly Peeples of NASA’s Space Telescope Science Institute (STScI) have completed a study of the percentage of Earth-like planets created during the life of the universe, so far, and according to estimates, the majority of Earth-like planets have yet to be born. 

“Our main motivation was understanding the Earth’s place in the context of the rest of the universe,” said study author Peter Behroozi of the Space Telescope Science Institute (STScI) in Baltimore, Maryland, “Compared to all the planets that will ever form in the universe, the Earth is actually quite early.”

“There is enough remaining material [after the big bang] to produce even more planets in the future, in the Milky Way and beyond,” added co-investigator Molly Peeples of STScI.

The diversity of exoplanets is large — more than 800 planets outside the Solar System have been found to date, with thousands more waiting to be confirmed. Detection methods in this field are steadily and quickly increasing — meaning that many more exoplanets will undoubtedly be discovered in the months and years to come. This planet looks promising, but is going to be a problem reaching with current technology. Image credit IAU
The diversity of exoplanets is large — more than 800 planets outside the Solar System have been found to date, with thousands more waiting to be confirmed. Detection methods in this field are steadily and quickly increasing — meaning that many more exoplanets will undoubtedly be discovered in the months and years to come.
This planet looks promising but is going to be a problem reaching with current technology.
Image credit IAU

By Earth-like we mean an exoplanet the right distance from its parent star for water to exist in liquid form and the Genesis of life to take place. Earth is the only planet we know life exists on, but considering estimates of the size of the cosmos, one would certainly expect life has popped its head up somewhere else. If their estimates of the amount of gas left over for the formation of new stars is correct, the Milky Way and universe will be making new stars for a very long time. 

There’s still lots of time to invent, or order on the uni-net (Universal Internet), a faster-than-light spacecraft to help in your search for a new home. Current estimates indicate there are at least 1 billion Earth-sized planets in the Milky Way. How many are suitable homes you can live on? Maybe by the time you get the spacecraft you need, they’ll have a better estimate of exactly how many are Earth-like. 

You still have time to prepare!

Unless you’re a time traveler from the future, you have time to prepare, and this team of intrepid astronomers has time to refine their estimate. Hopefully, by then, we’ll be permanently connected to the uni-net, and you can just look online for the best property on an exoplanet far, far away.

You can learn more about NASA’s mandate to travel to the stars here.

You can discover the Hubble Space Telescope.

Learn more about the Space Telescope Science Institute here.

Learn more and become part of Planetary Resources Inc’s plans to mine an asteroid in the near future.

Read about astronomers search for planets with the building blocks of life.

Read about the detection of the first Earth-sized planet.

 

Hubble Space Telescope Views Island Universe Messier 96

A very asymmetric galaxy resembling a titanic island universe of glowing gas and dark dust

This new NASA/ESA Hubble Space Telescope shows Messier 96, a spiral galaxy just over 35 million light-years away in the constellation of Leo (The Lion). It is of about the same mass and size as the Milky Way. It was first discovered by astronomer Pierre Méchain in 1781, and added to Charles Messier’s famous catalogue of astronomical objects just four days later. The galaxy resembles a giant maelstrom of glowing gas, rippled with dark dust that swirls inwards towards the nucleus. Messier 96 is a very asymmetric galaxy; its dust and gas is unevenly spread throughout its weak spiral arms, and its core is not exactly at the galactic centre. Its arms are also asymmetrical, thought to have been influenced by the gravitational pull of other galaxies within the same group as Messier 96. This group, named the M96 Group, also includes the bright galaxies Messier 105 and Messier 95, as well as a number of smaller and fainter galaxies. It is the nearest group containing both bright spirals and a bright elliptical galaxy (Messier 105).
This new NASA/ESA Hubble Space Telescope shows Messier 96, a spiral galaxy just over 35 million light-years away in the constellation of Leo (The Lion). It is of about the same mass and size as the Milky Way. It was first discovered by astronomer Pierre Méchain in 1781 and added to Charles Messier’s famous catalogue of astronomical objects just four days later. The galaxy resembles a giant maelstrom of glowing gas, rippled with dark dust that swirls inwards towards the nucleus. Messier 96 is a very asymmetric galaxy; its dust and gas are unevenly spread throughout its weak spiral arms, and its core is not exactly at the galactic centre. Its arms are also asymmetrical, thought to have been influenced by the gravitational pull of other galaxies within the same group as Messier 96. This group named the M96 Group, also includes the bright galaxies Messier 105 and Messier 95, as well as a number of smaller and fainter galaxies. It is the nearest group containing both bright spirals and a bright elliptical galaxy (Messier 105).

Space news ( October 11, 2015) – 35 million light-years from Earth toward the constellation Leo the Lion –

NASA’s Hubble Space Telescope recently took this stunning image of Messier 96, a spiral galaxy approximately the same volume and mass as our Milky Way. First viewed by Pierre Mechain in 1781, this island universe is unusual in many aspects compared to other spiral galaxies. The gas and dust in the spiral arms of Messier 96 are unevenly spread, due at least partially to the gravitational influence of nearby galaxies in the Leo I Galaxy Group. The core of this asymmetric island universe is also slightly off center, a fact that has scientists scratching their heads and wondering, why?

You can view more images and learn more about Messier 96 here.

Learn and read about the Leo I Galaxy Group here.

Discover NASA’s mission to the stars here.

View the journey of the Hubble Space Telescope here.

Learn more about titanic collisions between galaxy clusters in Abell 1033.

Read about a magnetar discovered orbiting close to Sagittarius A.

Learn more about plans of Planetary Resources Inc. to mine as an asteroid.

Survey of Debris Fields Around Infant Suns Reveals Structures with Unexpected Diversity and Complexity

Structures created during cataclysmic collisions between objects left over from planet formation or something unknown?

This is a set of images from a NASA Hubble Space Telescope survey of the architecture of debris systems around young stars. Ten previously discovered circumstellar debris systems, plus MP Mus (a mature protoplanetary disk of age comparable to the youngest of the debris disks), were studied.
This is a set of images from a NASA Hubble Space Telescope survey of the architecture of debris systems around young stars. Ten previously discovered circumstellar debris systems, plus MP Mus (a mature protoplanetary disk of age comparable to the youngest of the debris disks), were studied.

Space news (July 13, 2015) – collisions indicating possible gravitational effects of unseen orbiting exoplanets or consequences of the star traveling through interstellar space –

Space scientists using the Hubble Space Telescope recently completed a visible-light imaging survey of the debris field systems around 10 young stars between the ages of 10 million to 1 billion years old. Debris fields they studied in order to better understand the early solar system and formation of the planets.

Explore 25 Years of the Hubble Space Telescope NASA will host a one-day-long event for 50 social media and media attendees at the Newseum and NASA's Goddard Space Flight Center to mark the 25th anniversary of the Hubble Space Telescope. In 1990, the Hubble Space Telescope was launched into a low Earth orbit and began returning groundbreaking images and data that continue to revolutionize astronomy.
Explore 25 Years of the Hubble Space Telescope
NASA will host a one-day-long event for 50 social media and media attendees at the Newseum and NASA’s Goddard Space Flight Center to mark the 25th anniversary of the Hubble Space Telescope. In 1990, the Hubble Space Telescope was launched into a low-Earth orbit and began returning groundbreaking images and data that continue to revolutionize astronomy.

It’s like looking back in time to see the kinds of destructive events that once routinely happened in our solar system after the planets formed,” said survey leader Glenn Schneider of the University of Arizona’s Steward Observatory.

eclipseguy with Glenn Schneider from The Steward Observatory at the University of Arizona. Glenn is the Project Lead – he makes the calculations for our Totality Run: the aircraft’s interception of the Moon’s umbra. He’s seen 32 Total Solar Eclipses
eclipseguy with Glenn Schneider from The Steward Observatory at the University of Arizona. Glenn is the Project Lead – he makes the calculations for our Totality Run: the aircraft’s interception of the Moon’s umbra. He’s seen 32 Total Solar Eclipses

What did the survey find?

Space scientists studying the evolution of stars and the formation of planets used to think debris fields surrounding young stars should be composed of simple pancake-like structures.

The complexity and diversity in debris fields studied in this recent survey strongly suggest this scenario is a little more involved than theories suggest. Facts indicate the possibility of gravitational effects of unseen exoplanets hidden within the dusty debris, the results of the young star traveling through interstellar space, or something unthought of as the reason for the deviation from theory.

We find that the systems are not simply flat with uniform surfaces,” Schneider said. “These are actually pretty complicated three-dimensional debris systems, often with embedded smaller structures. Some of the substructures could be signposts of unseen planets.” The astronomers used Hubble’s Space Telescope

Imaging Spectrograph to study 10 previously discovered circumstellar debris systems.

Star HD 181327 Shows Huge Debris Spray

Captured by the Hubble Space Telescope, this image shows the huge dusty debris discs around a star called HD 181327, showing a huge spray of debris possibly caused by the recent collision of two bodies into the outer part of the system. Read more: http://www.dailymail.co.uk/sciencetech/article-2826048/Hubble-spots-massive-eye-sky-reveal-massive-dust-clouds-left-planets-form-say-moon-formed.html#ixzz3gjPl6sI1 Follow us: @MailOnline on Twitter | DailyMail on Facebook
Captured by the Hubble Space Telescope, this image shows the huge dusty debris discs around a star called HD 181327, showing a huge spray of debris possibly caused by the recent collision of two bodies into the outer part of the system. Image credit NASA

The ring-like debris system surrounding star HD 181327 has irregularities space scientists think could be due to a recent collision between two bodies on the outer part of the system.

This spray of material is fairly distant from its host star — roughly twice the distance that Pluto is from the sun,” said co-investigator Christopher Stark. “Catastrophically destroying an object that massive at such a large distance is difficult to explain, and it should be very rare. If we are in fact seeing the recent aftermath of a massive collision, the unseen planetary system may be quite chaotic.

Another interpretation for the irregularity is that the disk has been mysteriously warped by the star’s passage through interstellar space, directly interacting with the unseen interstellar material. “Either way, the answer is exciting,” Schneider said. “Our team is currently analyzing follow-up observations that will help reveal the true cause of the irregularity.

As of 07/09/2015 space scientists have verified the existence of 1858 exoplanets, including 468 exosolar systems with multiple planets, and 92 Earth-size terrestrial-type planets. The structure and overall architecture of the systems discovered so far are more diverse than astrophysicists first proposed.

Habitable Worlds Image Credit & Licence: Planetary Habitability Laboratory (UPR Arecibo) Explanation: Is Earth the only known world that can support life? In an effort to find life-habitable worlds outside our Solar System, stars similar to our Sun are being monitored for slight light decreases that indicate eclipsing planets. Many previously-unknown planets are being found, including over 700 worlds recently uncovered by NASA's Kepler satellite. Depicted above in artist's illustrations are twelve extrasolar planets that orbit in the habitable zones of their parent stars. These exoplanets have the right temperature for water to be a liquid on their surfaces, and so water-based life on Earth might be able to survive on them. Although technology cannot yet detect resident life, finding habitable exoplanets is a step that helps humanity to better understand its place in the cosmos.
Habitable Worlds
Image Credit & Licence: Planetary Habitability Laboratory (UPR Arecibo)
Explanation: Is Earth the only known world that can support life? In an effort to find life-habitable worlds outside our Solar System, stars similar to our Sun are being monitored for slight light decreases that indicate eclipsing planets. Many previously unknown planets are being found, including over 700 worlds recently uncovered by NASA’s Kepler satellite. Depicted above in artist’s illustrations are twelve extrasolar planets that orbit in the habitable zones of their parent stars. These exoplanets have the right temperature for water to be a liquid on their surfaces, and so water-based life on Earth might be able to survive on them. Although technology cannot yet detect resident life, finding habitable exoplanets is a step that helps humanity to better understand its place in the cosmos.

During this time, space scientists have only viewed about two dozen light-scattering, circumstellar debris systems due to their comparative faintness and proximity to their parent stars. Despite the small sample size in exoplanetary debris systems astronomers view a surprising variety of architectures.

We are now seeing a similar diversity in the architecture of the accompanying debris systems,” Schneider said. “How are the planets affecting the disks, and how are the disks affecting the planets? There is some sort of interdependence between a planet and the accompanying debris that might affect the evolution of these exoplanetary debris systems.

What’s next?

Space scientists will now use the results obtained through this survey and the overall study of the debris system disks viewed to devise new theories and experiments to determine more about the evolution and growth of young stars in the cosmos.

They’ll also use the data and information gained to begin looking at how our solar system formed and evolved during the past 4.6 billion years. They want to study collisions between objects like HD 181327 and Earth-like planets to give more insight into the birth and evolution of our planet and the Moon during the first moments of the solar system.

You can learn more about and follow NASA’s space mission here.

Learn more about the Hubble Space Telescope here.

Learn about the NExSS Coalition’s Search for Habitable Planets and Life Beyond Earth.

Read about NASA telescopes detection of water vapor and clear skies on a Neptune-sized exoplanet.

Learn how to calculate the orbit of asteroids within the Main Asteroid Belt.

Mars

A symbol for war and aggression for human tribes for thousands of years, fear and foreboding grew in the heart whenever a blood-red star, Mars (the Red Planet) appeared and moved across the night sky.

Global mosaic of Mars. Visible in the center of this mosaic is the largest known chasm in the solar system, Valles Marineris. Reproduced from Volume 14 of the Mars Digital Image Model (MDIM) CD-ROM set.
Global mosaic of Mars. Visible in the center of this mosaic is the largest known chasm in the solar system, Valles Marineris. Reproduced from Volume 14 of the Mars Digital Image Model (MDIM) CD-ROM set.

Space & Astronomy Wiki – the planets of the solar system –

With 11 percent of the mass and half the diameter of Earth, Mars is smaller than Venus and bigger than both Mercury and the Moon. A world of geological wonders, with ancient volcanoes dwarfing the biggest mountains on Earth, the Red Planet had warm and wet geological periods in the distant past.

The most studied of the nine planets besides Earth, Mars is the fourth planet from the Sun at an average distance of 142 million miles and is named after the Roman God of War.

Tuesday was Mars Day in ancient Babylonia, who first created the seven-day week because they believed on this day Mars influenced their lives. With two small moons called Phobos and Deimos, that look much more like asteroids from the Main Asteroid Belt, and a surface that looks Earth-like in photographs, the Red Planet is probably the best planet to terraform.

Mars has an atmosphere primarily composed of carbon dioxide, with a little water vapor, and not enough oxygen for you to breath. With a gravity field .375 of Earth’s and an average surface temperature of -81 degrees Celsius, it will take generations to make the Red Planet habitable for human life.

You can find out more about Mars here.

Read about the first Earth-sized planet found orbiting in its host star’s habitable zone.

Learn more about main sequence stars like our Sun.

Read about floating debris or waves space scientists see on the seas of Saturn’s moon Titan.

 

Pisces

The 14th biggest constellation in the night sky, Pisces the Fishes is visible in the night sky between latitude 90 to -65 degrees.

The constellation of Pisces actually consists of two fish, one working its way north, the other west. You’ll find Alpha (α) Piscium located at the southern tip of the constellation, at the point where the two segments are joined. That strange name, Alrescha, is derived from the Arabian name, Al Risha, meaning “cord,” which refers to the point at which the two piscatorial cousins are bound together in a knotted cord. Note that the locations shown for Jupiter and Uranus on this chart are current as of the first half of November, 2011. (Stellarium image with labels added, click for a larger view).
The constellation of Pisces actually consists of two fish, one working its way north, the other west. You’ll find Alpha (α) Piscium located at the southern tip of the constellation, at the point where the two segments are joined. That strange name, Alrescha, is derived from the Arabian name, Al Risha, meaning “cord,” which refers to the point at which the two piscatorial cousins are bound together with a knotted cord. Note that the locations are shown for Jupiter and Uranus on this chart as of the first half of November 2011. (Stellarium image with labels added, click for a larger view).

Space & astronomy wiki – the constellations in the sky –

Northeast of Aquarius the Water Bearer and Northwest of Cetus the Sea-monster, observers in Canada best look in early Autumn to view this faint, but huge V-shaped constellation occupying 889 square degrees of the 1st quadrant of the Northern Hemisphere.

The best time to see Pisces is around 9 p.m. (10 p.m. local standard time) between November 6-9. This changes to around 8 p.m. during the early days of December.

Look for the celestial signpost most observers use to find Pisces the Fishes, the Great Square of Pegasus as shown in the image below. Look for the Circlet of Pisces – often called the head of the Western Fish – to the south of the Square of Pegasus. Once you locate the Circlet of Pisces, head east of the Square of Pegasus to the Eastern Fish.

One of the first constellations in the night sky to be identified by ancient astronomers, Pisces the Fishes is believed to be based originally on the Syrian goddess of love and fertility Atagartis. Half-fish and half-woman some archaeologists believe Atagartis is the inspiration Babylonian astronomers used to originate both Greek and Roman goddesses of love and beauty Aphrodite and Venus.

For more information on Pisces, the Fishes go here.

Learn more about how stars seed the universe with the building blocks of the cosmos.

Read about Einstein’s spacetime.

Read about NASA’s Spitzer Telescopes view of the chaotic heart of supernova M82.