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Solar System: Things to Know This Week

Our Psyche mission to a metal world, which will explore a giant metal asteroid known as 16 Psyche, is getting a new, earlier launch date. Psyche is now expected to launch from the Kennedy Space Center in 2022, cruise through the solar system for 4.6 years, and arrive at the Psyche asteroid in 2026, four years earlier than planned. 

Below are 10 things to know about this mission to a completely new and unexplored type of world.

1. Psyche, Squared 

Psyche is the name of the NASA space mission and the name of the unique metal asteroid orbiting the sun between Mars and Jupiter. The asteroid was discovered in 1852 by Italian astronomer Annibale de Gasparis and named after the Greek mythological figure Psyche, whom Cupid fell in love with. "Psyche" in Greek also means "soul."

2. Mission: Accepted

The Psyche Mission was selected for flight earlier this year under NASA's Discovery Program. And it will take a village to pull off: The spacecraft is being built by Space Systems Loral in Palo Alto, California; the mission is led by Arizona State University; and NASA's Jet Propulsion Laboratory will be responsible for mission management, operations and navigation.

3. An Unusual Asteroid 

For the very first time, this mission will let us examine a world made not of rock and ice, but metal. Scientists think Psyche is comprised mostly of metallic iron and nickel, similar to Earth's core - which means Psyche could be an exposed core of an early planet as large as Mars.

4. Sweet 16 

Psyche the asteroid is officially known as 16 Psyche, since it was the 16th asteroid to be discovered. It lies within the asteroid belt, is irregularly shaped, about the size of Massachusetts, and is about three times farther away from the sun than Earth.

5. Discoveries Abound 

The Psyche mission will observe the asteroid for 20 months. Scientists hope to discover whether Psyche is the core of an early planet, how old it is, whether it formed in similar ways to Earth's core, and what its surface is like. The mission will also help scientists understand how planets and other bodies separated into their layers including cores, mantles and crusts early in their histories. "Psyche is the only known object of its kind in the solar system and this is the only way humans will ever visit a core," said Principal Investigator Lindy Elkins-Tanton of Arizona State University.

6. Think Fast 

The mission launch and arrival were moved up because Psyche's mission design team were able to plot a more efficient trajectory that no longer calls for an Earth gravity assist, ultimately shortening the cruise time. The new trajectory also stays farther from the sun, reducing the amount of heat protection needed for the spacecraft, and will still include a Mars flyby in 2023.

7. Gadgets Galore

The Psyche spacecraft will be decked out with a multispectral imager, gamma ray and neutron spectrometer, magnetometer, and X-band gravity science investigation. More: https://sese.asu.edu/research/psyche

8. Stunning Solar Panels 

In order to support the new mission trajectory, the solar array system was redesigned from a four-panel array in a straight row on either side of the spacecraft to a more powerful five-panel x-shaped design, commonly used for missions requiring more capability. Much like a sports car, combining a relatively small spacecraft body with a very high-power solar array design means the Psyche spacecraft will be able to speed to its destination much faster. Check out this artist's-concept illustration here: https://www.nasa.gov/image-feature/artists-concept-of-psyche-spacecraft-with-five-panel-array

9. See For Yourself

Watch the planned Psyche mission in action.

10. Even More Asteroids

Our missions to asteroids began with the orbiter NEAR of asteroid Eros, which arrived in 2000, and continues with Dawn, which orbited Vesta and is now in an extended mission at Ceres. The mission OSIRIS-REx, which launched on Sept. 8, 2016, is speeding toward a 2018 rendezvous with the asteroid Bennu, and will deliver a sample back to Earth in 2023. The Lucy mission is scheduled to launch in October 2021 and will explore six Jupiter Trojan asteroids. More: https://www.jpl.nasa.gov/news/news.php?feature=6713

Want to learn more? Read our full list of the 10 things to know this week about the solar system HERE.

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GALAXY BRAIN 🧠

Our Hubble Space Telescope spotted this planetary nebula in the constellation of Orion. It's really a vast orb of gas in space, with its aging star in the center... but what does it look like to you? 🤔

When stars like the Sun grow advanced in age, they expand and glow red. These so-called red giants then begin to lose their outer layers of material into space. More than half of such a star's mass can be shed in this manner, forming a shell of surrounding gas. At the same time, the star's core shrinks and grows hotter, emitting ultraviolet light that causes the expelled gases to glow.

The magnetic field lines between a pair of active regions formed a beautiful set of swaying arches, seen in this footage captured by our Solar Dynamics Observatory on April 24-26, 2017. 

These arches, which form a connection between regions of opposite magnetic polarity, are visible in exquisite detail in this wavelength of extreme ultraviolet light. Extreme ultraviolet light is typically invisible to our eyes, but is colorized here in gold. 

Take a closer look: https://go.nasa.gov/2pGgYZt

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Hi Jeanette, what will you be doing while aboard the ISS next year? Will you be researching anything interesting? I'm a recent mathematics/astrophysics grad and I'm really curious about what goes on in the ISS :)

Aboard the ISS all crewmembers are research subjects in and of themselves, so we will learn how human beings can live longer and longer in microgravity. We will also maintain the space station which is a huge experiment in and of itself. Then there will be experiments in material science, biotech experiments, as well as plant science.

Hello Serena! I was wondering if given the chance would you be apart of a mission to mars in the near future, and if you could bring a personal item with you what would it be?

Black Holes: Seeing the Invisible!

Black holes are some of the most bizarre and fascinating objects in the cosmos. Astronomers want to study lots of them, but there’s one big problem – black holes are invisible! Since they don’t emit any light, it’s pretty tough to find them lurking in the inky void of space. Fortunately there are a few different ways we can “see” black holes indirectly by watching how they affect their surroundings.

Speedy stars

If you’ve spent some time stargazing, you know what a calm, peaceful place our universe can be. But did you know that a monster is hiding right in the heart of our Milky Way galaxy? Astronomers noticed stars zipping superfast around something we can’t see at the center of the galaxy, about 10 million miles per hour! The stars must be circling a supermassive black hole. No other object would have strong enough gravity to keep them from flying off into space.

Two astrophysicists won half of the Nobel Prize in Physics last year for revealing this dark secret. The black hole is truly monstrous, weighing about four million times as much as our Sun! And it seems our home galaxy is no exception – our Hubble Space Telescope has revealed that the hubs of most galaxies contain supermassive black holes.

Shadowy silhouettes

Technology has advanced enough that we’ve been able to spot one of these supermassive black holes in a nearby galaxy. In 2019, astronomers took the first-ever picture of a black hole in a galaxy called M87, which is about 55 million light-years away. They used an international network of radio telescopes called the Event Horizon Telescope.

In the image, we can see some light from hot gas surrounding a dark shape. While we still can’t see the black hole itself, we can see the “shadow” it casts on the bright backdrop.

Shattered stars

Black holes can come in a smaller variety, too. When a massive star runs out of the fuel it uses to shine, it collapses in on itself. These lightweight or “stellar-mass” black holes are only about 5-20 times as massive as the Sun. They’re scattered throughout the galaxy in the same places where we find stars, since that’s how they began their lives. Some of them started out with a companion star, and so far that’s been our best clue to find them.

Some black holes steal material from their companion star. As the material falls onto the black hole, it gets superhot and lights up in X-rays. The first confirmed black hole astronomers discovered, called Cygnus X-1, was found this way.

If a star comes too close to a supermassive black hole, the effect is even more dramatic! Instead of just siphoning material from the star like a smaller black hole would do, a supermassive black hole will completely tear the star apart into a stream of gas. This is called a tidal disruption event.

Making waves

But what if two companion stars both turn into black holes? They may eventually collide with each other to form a larger black hole, sending ripples through space-time – the fabric of the cosmos!

These ripples, called gravitational waves, travel across space at the speed of light. The waves that reach us are extremely weak because space-time is really stiff.

Three scientists received the 2017 Nobel Prize in Physics for using LIGO to observe gravitational waves that were sent out from colliding stellar-mass black holes. Though gravitational waves are hard to detect, they offer a way to find black holes without having to see any light.

We’re teaming up with the European Space Agency for a mission called LISA, which stands for Laser Interferometer Space Antenna. When it launches in the 2030s, it will detect gravitational waves from merging supermassive black holes – a likely sign of colliding galaxies!

Rogue black holes

So we have a few ways to find black holes by seeing stuff that’s close to them. But astronomers think there could be 100 million black holes roaming the galaxy solo. Fortunately, our Nancy Grace Roman Space Telescope will provide a way to “see” these isolated black holes, too.

Roman will find solitary black holes when they pass in front of more distant stars from our vantage point. The black hole’s gravity will warp the starlight in ways that reveal its presence. In some cases we can figure out a black hole’s mass and distance this way, and even estimate how fast it’s moving through the galaxy.

For more about black holes, check out these Tumblr posts!

⚫ Gobble Up These Black (Hole) Friday Deals!

⚫ Hubble’s 5 Weirdest Black Hole Discoveries

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Is it safe to look at the eclipse if it isn't fully covered by the sun? Say 75%

Not without proper eye wear. There will still be too much light that could burn your eyes. But you can have a ton of fun viewing the Sun using a https://eclipse.aas.org/eye-safety/projection. In fact, there is a sunspot that is now on the Sun that you should be able to see using this indirect method! 

Small Businesses with Big Plans for the Moon and Mars

Today is Small Business Saturday, which the U.S. Small Business Administration (SBA) recognizes as a day to celebrate and support small businesses and all they do for their communities.

Source: Techshot

We are proud to partner with small businesses across the country through NASA’s Small Business Innovative Research (SBIR) and Small Business Technology Transfer (STTR) programs, which have funded the research, development and demonstration of innovative space technologies since 1982. This year, we’ve awarded 571 SBIR/STTR contracts totaling nearly $180 million to companies who will support our future exploration:

Techshot, Inc. was selected to bioprint micro-organs in a zero-gravity environment for research and testing of organs-on-chip devices, which simulate the physiological functions of body organs at a miniature scale for health research without the need for expensive tests or live subjects.

CertainTech, Inc., with the George Washington University, will demonstrate an improved water recovery system for restoring nontoxic water from wastewater using nanotechnology.

Electrochem, Inc. was contracted to create a compact and lightweight regenerative fuel cell system that can store energy from an electrolyzer during the lunar day to be used for operations during the lunar night.

Source: Electrochem

Small businesses are also developing technologies for the Artemis missions to the Moon and for human and robotic exploration of Mars. As we prepare to land the first woman and next man on the Moon by 2024, these are just a few of the small businesses working with us to make it happen.

Commercial Lunar Payload Delivery Services

Masten Space Systems, Astrobotic and Tyvak Nano-Satellite Systems are three NASA SBIR/STTR alumni now eligible to bid on NASA delivery services to the lunar surface through Commercial Lunar Payload Services (CLPS) contracts. Other small businesses selected as CLPS providers include Ceres Robotics, Deep Space Systems, Intuitive Machines, Moon Express, and Orbit Beyond. Under the Artemis program, these companies could land robotic missions on the Moon to perform science experiments, test technologies and demonstrate capabilities to help the human exploration that will follow. The first delivery could be as early as July 2021.

A Pathfinder CubeSat

One cornerstone of our return to the Moon is a small spaceship called Gateway that will orbit our nearest neighbor to provide more access to the lunar surface. SBIR/STTR alum Advanced Space Systems will develop a CubeSat that will test out the lunar orbit planned for Gateway, demonstrating how to enter into and operate in the unique orbit. The Cislunar Autonomous Positioning System Technology Operations and Navigation Experiment (CAPSTONE) could launch as early as December 2020.

Tipping Point for Moon to Mars

We selected 14 companies as part of our Tipping Point solicitation, which fosters the development of critical, industry-led space capabilities for our future missions. These small businesses all proposed unique technologies that could benefit the Artemis program.

Many of these small businesses are also NASA SBIR/STTR alumni whose Tipping Point awards are related to their SBIR or STTR awards. For example, Infinity Fuel Cell and Hydrogen, Inc. (Infinity Fuel) will develop a power and energy product that could be used for lunar rovers, surface equipment, and habitats. This technology stems from a new type of fuel cell that Infinity Fuel developed with the help of NASA SBIR/STTR awards.

CU Aerospace and Astrobotic are also small businesses whose Tipping Point award can be traced back to technology developed through the NASA SBIR/STTR program. CU Aerospace will build a CubeSat with two different propulsion systems, which will offer high performance at a low cost, and Astrobotic will develop small rover “scouts” that can host payloads and interface with landers on the lunar surface.

Small Businesses, Big Impact

This is just a handful of the small businesses supporting our journey back to the Moon and on to Mars, and just a taste of how they impact the economy and American innovation. We are grateful for the contributions that small businesses make—though they be but “small,” they are fierce.

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Up for some virtual cloud watching? ☁️

What do you see in Jupiter's hazy atmosphere?

Our NASA JunoCam mission captured this look at the planet’s thunderous northern region during the spacecraft’s close approach to the planet on Feb. 17, 2020.

Some notable features in this view are the long, thin bands that run through the center of the image from top to bottom. Juno has observed these long streaks since its first close pass by Jupiter in 2016.

Image Credits: Image data: NASA / JPL / SwRI / MSSS Image Processing: Citizen Scientist Eichstädt

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Labor Day reflections: the Nancy Grace Roman Space Telescope’s primary mirror reflects an American flag hanging overhead.⁣ ⁣ The mirror, which will collect and focus light from cosmic objects near and far, has been completed. Renamed after our first chief astronomer and "Mother of Hubble," the Roman Space Telescope will capture stunning space vistas with a field of view 100 times greater than Hubble Space Telescope images. The spacecraft will study the universe using infrared light, which human eyes can’t detect without assistance. ⁣ ⁣ This Labor Day, we thank all the people who work to advance the future for humanity.⁣ ⁣ Credit: L3Harris Technologies⁣ Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com ⁣