NASA

Seven Earth-like Planets Found Orbiting Nearby Star

TRAPPIST1 Size Comparison ChartImage via Space.com

This morning NASA announced the discovery of seven Earth-like planets “that could harbor life” orbiting an ultra cool red dwarf star. Three of these seven newly discovered planets are in the Habitable Zone. The exoplanets circle the star TRAPPIST-1, which lies just 39 light-years (235 trillion miles) away — a mere stone’s throw in the cosmic scheme of things.

From Washington Post:

The discovery, reported Wednesday in the journal Nature, represents the first time astronomers have ever detected so many terrestrial planets orbiting a single star. Researchers say the system is an ideal laboratory for studying alien worlds and could be the best place in the galaxy to search for life beyond Earth.

“Before this, if you wanted to study terrestrial planets, we had only four of them and they were all in our solar system,” said lead author Michaël Gillon, an exoplanet researcher at the University of Liège in Belgium. “Now we have seven Earth-sized planets to expand our understanding. Yes, we have the possibility to find water and life. But even if we don’t, whatever we find will be super interesting.”

Here’s the paper in Nature: Seven temperate terrestrial planets around the nearby star TRAPPIST-1.

There Are At Least 10 Times More Galaxies In The Universe Than We Thought

The universe suddenly looks a lot more crowded.

Waaaaay back in 1995, the Hubble Deep Field images surprised the world by revealing how crammed the universe is with galaxies. At that time astronomers estimated there were about 200 billion galaxies in the universe. Recent estimates put that count closer to 2 trillion, at least 10 times as many galaxies as we thought. However, about 90% of the galaxies in the observable Universe are actually too faint and too far away to be seen or studied. Phil Plait explains:

Now, let me be clear. This doesn’t meant the Universe is ten times bigger than we thought, or there are ten times as many stars. I’ll explain — I mean, duh, it’s what I do — but to cut to the chase, what they found is that there are lots of teeny, faint galaxies very far away that have gone undetected. So instead of being in a smaller number of big galaxies, stars are divvied up into a bigger number of smaller ones.

And it doesn’t mean the Universe has 10 times more mass than we thought. The mass is the same, it’s just distributed differently than we thought. It’s like knowing there are 1 million people in a city, and finding out they live in 100,000 buildings when you thought they were only in 10,000. There are more buildings, but not more people

This discovery has also helped lead to explanations for Olbers’ paradox which states, “Why is the sky dark at night if the universe contains a multitude of stars?” NASA helps explain:

The team came to the conclusion that indeed there actually is such an abundance of galaxies that, in principle, every patch in the sky contains part of a galaxy. However, starlight from the galaxies is invisible to the human eye and most modern telescopes due to other known factors that reduce visible and ultraviolet light in the universe. Those factors are the reddening of light due to the expansion of space, the universe’s dynamic nature, and the absorption of light by intergalactic dust and gas. All combined, this keeps the night sky dark to our vision.

The sky is literally covered in galaxies! Mind boggling to be sure!

A Young Globular Cluster

Youthful NGC 362 Globular Cluster

Earlier this week NASA released this dazzling image of NGC 362. It is one of about 150 known globular clusters on the outskirts of our own galaxy, the Milky Way. Globular clusters are giant spheres that contain hundreds of thousands of stars and reside in the outskirts of galaxies. The ESA says NGC 362 is unusual:

By studying the different elements present within individual stars in NGC 362, astronomers discovered that the cluster boasts a surprisingly high metal content, indicating that it is younger than expected. Although most globular clusters are much older than the majority of stars in their host galaxy, NGC 362 bucks the trend, with an age lying between 10 and 11 billion years old. For reference, the age of the Milky Way is estimated to be above 13 billion years.

This image, in which you can view many of NGC 362’s individual stars, was taken by Hubble’s Advanced Camera for Surveys (ACS) If you want a new desktop image, here’s the 42 MB full-size original (it will automatically download).

The Moon 1968–1972

Project Apollo Archive 41

During all six of NASA’s manned lunar landings, astronauts were armed and trained to use modified Hasselblads. During the Apollo missions, NASA’s astronauts took photos of moon landings, moon walks, the lunar surface, the horizon, and the Earth with these cameras. The results included over 20,000 photographs by 13 astronauts over six lunar landing missions. This huge trove of photographs are cataloged at The Project Apollo Archive. NASA also released a large number of these photos on Flickr back in 2015. The photo above is one of my favorites from this collection.

Though shot originally for scientific purposes, many of the photos have an extraordinary aesthetic value that encompasses an inadvertently artful composition. The fine folks at T. Alder Books have sorted through the nearly 15,000 of these photos and came up with 45 images that consist of “unintended artful compositions” and a “beautiful, deft outtake quality,”. The collection will be released in a book entitled The Moon 1968–1972 that will be released later this month.

At a time when archival images are often hastily assembled into digital galleries that get passed around briefly on social media, it’s especially satisfying to sit with an affordable ($18), carefully edited, designed and printed archive of photographs of historical significance and esthetic value. Texts include excerpts from a speech President John F. Kennedy made about the Apollo program, and from an E.B. White story for The New Yorker recalling the first moon landing.

First Ever Extra Terrestrial Zinnia Flower

First Space Flower

This orange beauty, bathing in natural sunlight for the first time, is the first Zinnia flower to have ever grown entirely in space. It’s part of the VEG-01 experiment on the International Space Station.

The Veggie experiments will allow the crew members to begin the first steps of in-orbit food production as well as educational outreach and recreation for long-duration missions. The experiment allows scientists to gain a better understanding of plant cultivation and will help determine ways to carry out self-sustaining life support systems during long distance space travel, possibly to Mars.

The facility has previously grown lettuce which was consumed by the crew last year. The next set of crops, called VEG-03, has two types of Chinese cabbage and more romaine lettuce. It will arrive at ISS in March via SpaceX’s CRS-8 mission. In 2018, NASA will send a set of dwarf tomato plants to ISS and we could witness crew members eating the first space salads.

Surprising, the Zinnia flowers almost died from over watering, a mold outbreak, and too much bureaucracy from NASA:

In late December, Kelly found that the plants “weren’t looking too good,” and told the ground team, “You know, I think if we’re going to Mars, and we were growing stuff, we would be responsible for deciding when the stuff needed water. Kind of like in my backyard, I look at it and say ‘Oh, maybe I should water the grass today.’ I think this is how this should be handled.”

The Veggie team on Earth created what was dubbed “The Zinnia Care Guide for the On-Orbit Gardener,” and gave basic guidelines for care while putting judgment capabilities into the hands of the astronaut who had the plants right in front of him. Rather than pages and pages of detailed procedures that most science operations follow, the care guide was a one-page, streamlined resource to support Kelly as an autonomous gardener. Soon, the flowers were on the rebound, and on Jan. 12, pictures showed the first peeks of petals beginning to sprout on a few buds.

Space Flower

Space FlowerAll photos via Scott Kelly/NASA

Pluto’s Spinning Moons

Pluto's Spinning Moons

Most inner moons in the solar system keep one face pointed toward their central planet, much like our own moon. This is called gravitational locking, or tidal locking. The gif above shows that certainly isn’t the case with the small moons of Pluto, which behave like spinning tops. Pluto is shown at center with, in order, from smaller to wider orbit: Charon (which you can see is actually tidally locked), Styx, Nix, Kerberos, and Hydra (which all spin).

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