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The Most Massive Galaxies Spin More Than Twice as Fast as the Milky Way

It’s a difficult thing to wrap your head around sometimes. Though it might feel stationary, planet Earth is actually moving at an average velocity of 29.78 km/s (107,200 km/h; 66600 mph). And yet, our planet has nothing on the Sun itself, which travels around the center of our galaxy at a velocity of 220 km/s (792,000 km/h; 492,000 mph).

But as is so often the case with our Universe, things only get more staggering the farther you look. According to a new study by an international team of astronomers, the most massive “super spiral” galaxies in the Universe rotate twice as fast as the Milky Way. The cause, they argue, is the massive clouds (or halos) of Dark Matter that surround these galaxies.

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Comets and Interstellar Objects Could be Exporting Earth Life Out into the Milky Way

For over a century, proponents of Panspermia have argued that life is distributed throughout our galaxy by comets, asteroids, space dust, and planetoids. But in recent years, scientists have argued that this type of distribution may go beyond star systems and be intergalactic in scale. Some have even proposed intriguing new mechanisms for how this distribution could take place.

For instance, it is generally argued that meteorite and asteroid impacts are responsible for kicking up the material that would transport microbes to other planets. However, in a recent study, two Harvard astronomers examine the challenges that this would present and suggest another means – Earth-grazing objects that collect microbes from our atmosphere and then get flung into deep-space.

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Success! NASA Confirms the Mole is Working Again.

After months of setbacks, NASA says that the InSight Lander’s Mole is working again.

InSight landed on Mars on Nov. 26 2018 in Elysium Planitia. Its mission is to study the interior of the planet, to learn about how Mars and other rocky planets formed. InSight (Interior Exploration using Seismic Investigations, Geodesy, and Heat Transport) is a NASA mission with other partners, including the DLR (German Aerospace Center.)

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What Was The First Color In The Universe?

The Orion Nebula, one of the most studied objects in the sky. Image: NASA

The universe bathes in a sea of light, from the blue-white flickering of young stars to the deep red glow of hydrogen clouds. Beyond the colors seen by human eyes, there are flashes of x-rays and gamma rays, powerful bursts of radio, and the faint, ever-present glow of the cosmic microwave background. The cosmos is filled with colors seen and unseen, ancient and new. But of all these, there was one color that appeared before all the others, the first color of the universe.

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An Army of Tiny Robots Could Assemble Huge Structures in Space

We live in a world where multiple technological revolutions are taking place at the same time. While the leaps that are taking place in the fields of computing, robotics, and biotechnology are gaining a great deal of attention, less attention is being given to a field that is just as promising. This would be the field of manufacturing, where technologies like 3D printing and autonomous robots are proving to be a huge game-changer.

For example, there is the work being pursued by MIT’s Center for Bits and Atoms (CBA). It is here that graduate student Benjamin Jenett and Professor Neil Gershenfeld (as part of Jenett’s doctoral thesis work) are working on tiny robots that are capable of assembling entire structures. This work could have implications for everything from aircraft and buildings to settlements in space.

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SpaceX Files a Request to Launch Another 30,000 Satellites for Starlink, on Top of the 12,000 They’re Already Planning to Launch

SpaceX is really kicking things into high-gear with its Starlink network. The creation of this satellite constellation is central to Elon Musk’s vision of providing high-bandwidth internet access to a global market. Deployment began in earnest back in May with the launch of the first sixty Starlink satellites, with plans to launch an additional 1,584 by 2024 and 2,200 by 2027.

Until now, SpaceX’s long-term goal was to create a constellation of 12,000 satellites at altitudes ranging from 328 km to 580 km (200 to 360 mi) – based on what the FCC has approved so far. But according to recent filings with the International Telecommunication Union (ITU), SpaceX intends to send an additional 30,000 Starlink satellites to Low Earth Orbit (LEO) in the coming years.

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Some Quasars Shine With the Light of Over a Trillion Stars

Quasars are some of the brightest objects in the Universe. The brightest ones are so luminous they outshine a trillion stars. But why? And what does their brightness tell us about the galaxies that host them?

To try to answer that question, a group of astronomers took another look at 28 of the brightest and nearest quasars. But to understand their work, we have to back track a little, starting with supermassive black holes.

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