History Made: Apollo 11 Splashes Down Today In 1969

Solar System: 10 Things to Know This Week

The solar system is huge, so let us break it down for you. Here are the top 10 things you should know this week:

1. Big “Wows” from Small Worlds

Our robotic explorers continue to send truly spectacular pictures and data from deep space. Our New Horizons mission to Pluto and Dawn mission to dwarf planet Ceres are revealing never-before-seen landscapes on a regular basis. If you missed it, check out the most recent images from Pluto and Ceres.

2. Deep Waters

Saturn’s moon Enceladus has intrigued many with its geysers that erupt continuously in spectacular plumes. Our Cassini spacecraft has provided scientists with data that is allowing them to determine the source of those plumes. New evidence points to a global ocean of liquid water hidden beneath the moon’s icy shell!

3. A Super Eclipse

This weekend a “supermoon” lunar eclipse will be visible in the night sky. Supermoons  occur when the moon is at its closest point to the Earth in its orbit, making it appear slightly larger. This one is extra special because it will also undergo a lunar eclipse! Beginning at 9:07 p.m. EDT on Sept. 27, make sure you get outside and look up! For more information visit: What’s Up for September.

4. All Things Equal

Sept. 23 marks the autumnal equinox, which is the official beginning of the Fall season in the northern hemisphere. The word “equinox” comes from the Latin for “equal night,” meaning day and night will be of equal length on that day.

5. Explore Goddard Space Flight Center

This weekend, Goddard Space Flight Center will be offering tours, presentations and other activities for children and adults. The theme this year is “Celebrating Hubble and the Spirit of Exploration”. This event is free and open to the public, and will be held on Saturday, Sept. 26 from 11 a.m. to 5 p.m. Join in HERE.

6. Titan’s Haze

This week, our Cassini spacecraft will observe Saturn’s hazy, planet-sized moon Titan. Scientists will use these images to look for clouds across Titan’s exotic regions. Explore HERE.

7. New Horizons Team on Pluto

Ever wondered what it was like to be part of the team that explored Pluto for the first time? If you’ll be near the Smithsonian National Air and Space Museum in Washington, DC on Sept. 22 you’re invited to a free lecture and Q&A to find out! Get the details HERE.

8. Martian Weather Report

Every day, our Mars Reconnaissance Orbiter delivers a global view of the planet and its atmospheric activity. The most recent report included lots of water-ice clouds in the afternoon, with dust storms developing along the south polar region. Get the latest HERE.

9. Imagine: The View from Pluto

If you’ve ever wondered what it would look like to stand on the icy terrain of Pluto, you’re not alone. Artist Karl Kofoed created a series of digital paintings that render scenes from the dwarf planet based on data from the New Horizons July 14 Pluto flyby. View them HERE.

10. What’s the Big Idea?

We’re giving university students a chance to help us come up with solutions for our journey to Mars. This Breakthrough, Innovative, and Game-changing (BIG) Idea Challenge will look for creative solutions for generating lift using inflatable spacecraft heat shields on Mars. Enter your BIG Idea.

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OMG! Ice is Melting from Below

Oceans Melting Greenland (OMG) scientists are heading into the field this week to better understand how seawater is melting Greenland’s ice from below. (Yes, those black specks are people next to an iceberg.) While NASA is studying ocean properties (things like temperature, salinity and currents), other researchers are eager to incorporate our data into their work. In fact, University of Washington scientists are using OMG data to study narwhals – smallish whales with long tusks – otherwise known as the “unicorns of the sea.”

 Our researchers are also in the field right now studying how Alaska’s ice is changing. Operation IceBridge, our longest airborne campaign, is using science instruments on airplanes to study and measure the ice below.

What happens in the Arctic doesn’t stay in the Arctic (or the Antarctic, really). In a warming world, the greatest changes are seen in the coldest places. Earth’s cryosphere – its ice sheets, sea ice, glaciers, permafrost and snow cover – acts as our planet’s thermostat and deep freeze, regulating temperatures and storing most of our freshwater. Next month, we’re launching ICESat-2, our latest satellite to study Earth’s ice!

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Hi!! I’m a high school sophomore and I love the work NASA does! I’ve always wondered, what’s an astronaut’s first thought when leaving earth? What kind of experiences do you leave the expedition with? Thanks! :) - Lauren

Andre Douglas

A Virginia native, Andre Douglas served in the U.S. Coast Guard as a naval architect and salvage engineer. Douglas later worked as an engineer for Johns Hopkins University Applied Physics Laboratory on NASA's DART mission to redirect an asteroid. https://go.nasa.gov/48FBlam

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What are the most important skills an astronaut should have m?

First of all, the basic requirement is a bachelor’s degree in a STEM field, and 3 years of experience (which can also be substituted for by an advanced degree). Other than that, operational experience (things with a technical/active/hands on nature like flying airplanes, SCUBA diving, taking things apart and putting them back together, basic fix-it skills, etc. etc.) is very important, as this is an integral aspect of every day of a space mission.  What we call “expeditionary skills” are also essential, basically the types of things you try to instill in your children, like how to play nicely with others, self care, team care, etc.  I like to think about this on the lines of a camping trip and who you would like to have along with you . . .someone that is competent and can take good care of themselves and their equipment, someone that contributes to the team and helps with group tasks, someone that is good natured and pleasant to be around, etc., someone fun!  These things are increasingly important now that we are regularly doing long duration missions (typical International Space Station mission is 6 months).  Experience living in extreme/remote/isolated environments with small teams is also useful, as it is similar to what we experience as astronauts.     

Neutron Stars Are Even Weirder Than We Thought

Let’s face it, it’s hard for rapidly-spinning, crushed cores of dead stars NOT to be weird. But we’re only beginning to understand how truly bizarre these objects — called neutron stars — are.

Neutron stars are the collapsed remains of massive stars that exploded as supernovae. In each explosion, the outer layers of the star are ejected into their surroundings. At the same time, the core collapses, smooshing more than the mass of our Sun into a sphere about as big as the island of Manhattan.

Our Neutron star Interior Composition Explorer (NICER) telescope on the International Space Station is working to discover the nature of neutron stars by studying a specific type, called pulsars. Some recent results from NICER are showing that we might have to update how we think about pulsars!

Here are some things we think we know about neutron stars:

Pulsars are rapidly spinning neutron stars ✔︎

Pulsars get their name because they emit beams of light that we see as flashes. Those beams sweep in and out of our view as the star rotates, like the rays from a lighthouse.

Pulsars can spin ludicrously fast. The fastest known pulsar spins 43,000 times every minute. That’s as fast as blender blades! Our Sun is a bit of a slowpoke compared to that — it takes about a month to spin around once.

The beams come from the poles of their strong magnetic fields ✔︎

Pulsars also have magnetic fields, like the Earth and Sun. But like everything else with pulsars, theirs are super-strength. The magnetic field on a typical pulsar is billions to trillions of times stronger than Earth’s!

Near the magnetic poles, the pulsar’s powerful magnetic field rips charged particles from its surface. Some of these particles follow the magnetic field. They then return to strike the pulsar, heating the surface and causing some of the sweeping beams we see.

The beams come from two hot spots… ❌❓✔︎ 🤷🏽

Think of the Earth’s magnetic field — there are two poles, the North Pole and the South Pole. That’s standard for a magnetic field.

On a pulsar, the spinning magnetic field attracts charged particles to the two poles. That means there should be two hot spots, one at the pulsar’s north magnetic pole and the other at its south magnetic pole.

This is where things start to get weird. Two groups mapped a pulsar, known as J0030, using NICER data. One group found that there were two hot spots, as we might have expected. The other group, though, found that their model worked a little better with three (3!) hot spots. Not two.

… that are circular … ❌❓✔︎ 🤷🏽

The particles that cause the hot spots follow the magnetic field lines to the surface. This means they are concentrated at each of the magnetic poles. We expect the magnetic field to appear nearly the same in any direction when viewed from one of the poles. Such symmetry would produce circular hot spots.

In mapping J0030, one group found that one of the hot spots was circular, as expected. But the second spot may be a crescent. The second team found its three spots worked best as ovals.

… and lie directly across from each other on the pulsar ❌❓✔︎ 🤷🏽

Think back to Earth’s magnetic field again. The two poles are on opposite sides of the Earth from each other. When astronomers first modeled pulsar magnetic fields, they made them similar to Earth’s. That is, the magnetic poles would lie at opposite sides of the pulsar.

Since the hot spots happen where the magnetic poles cross the surface of the pulsar, we would expect the beams of light to come from opposite sides of the pulsar.

But, when those groups mapped J0030, they found another surprising characteristic of the spots. All of the hot spots appear in the southern half of the pulsar, whether there were two or three of them.

This also means that the pulsar’s magnetic field is more complicated than our initial models!

J0030 is the first pulsar where we’ve mapped details of the heated regions on its surface. Will others have similarly bizarre-looking hotspots? Will they bring even more surprises? We’ll have to stay tuned to NICER find out!

And check out the video below for more about how this measurement was done.

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Questions coming up from….

@Dee-an-ugh-deactivated20210528: My 4-year-old is already interested in space. How can I nurture her interest the older she gets in a productive way

@marvelpjostarwarsobssessed: What inspired/caused your interest in space?

@Anonymous: Do you like your job?

The Overview Effect

Observing Earth from space can alter an astronauts’ cosmic perspective, a mental shift known as the “Overview Effect.” First coined by space writer Frank White in 1987, the Overview Effect is described as a feeling of awe for our home planet and a sense of responsibility for taking care of it.

See Earth from the vantage point of our astronauts in these perspective-changing views:

Floating Free in Space

Astronaut Bruce McCandless II used his hands to control his movement above the Earth during the first-ever spacewalk that didn't use restrictive tethers and umbilicals. Fellow crew members aboard the space shuttle Challenger captured this image on Feb. 7, 1984, through windows on the flight deck.

Of his famous spacewalk, McCandless wrote in 2015: "My wife [Bernice] was at mission control, and there was quite a bit of apprehension. I wanted to say something similar to Neil [Armstrong] when he landed on the moon, so I said, 'It may have been a small step for Neil, but it’s a heck of a big leap for me.' That loosened the tension a bit."

Earth Reflections

Astronaut Tracy Caldwell Dyson looks through a window in the Cupola of the International Space Station (ISS). A blue and white part of Earth and the blackness of space are visible through the windows. The image was a self-portrait using natural light.

In a preflight interview for Expedition 23/24, Dyson said: “hands down, the best part about it is being able to look at that view every day and during the time frame we’ll be up there, hopefully, we’ll have a big bay window and much more opportunity to observe this beautiful planet.”

Taking in the View

As astronaut Nick Hague prepared to conclude his six-month stay aboard the ISS, he shared this photo saying: "Today is my last Monday living on this orbiting laboratory and I’m soaking up my final views. The @Space_Station is truly an engineering marvel. #MondayMotivation." 

He and Expedition 60 and Soyuz commander Alexey Ovchinin of the Russian space agency Roscosmos​ completed a 203-day mission, spanning 3,248 orbits of Earth, and a journey of 80.8 million miles.

Earthrise

On Dec. 24, 1968, Apollo 8 astronauts Frank Borman, Jim Lovell and Bill Anders became the first humans to witness the Earth rising above the Moon's surface. 

 Anders, photographing the Moon from the right-side window, caught sight of the view, and exclaimed: “Oh my God, look at that picture over there! There’s the Earth comin’ up. Wow, is that pretty!”

The Blue Marble

Besides Earthrise, the Blue Marble is probably the most famous image of Earth that NASA has produced. Taken by the Apollo 17 crew on their way to the Moon in 1972, the Blue Marble and other NASA imagery of Earth has been credited by some with helping to fuel the environmental movement.

For more information on the Overview Effect, check out this episode of Houston We Have a Podcast. 

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Solar System: Things to Know This Week

Special Edition: Viking 40th Anniversary

Mars is hard. Forty years ago this week, our Viking mission found a place in history when it became the first U.S. mission to land a spacecraft safely on the surface of Mars and return images of the surface. This is astonishing considering that many of the spacecraft destined for Mars failed before completing their missions and some failed before their observations could begin.

Here’s a few things to know about the Viking missions that ushered in a new era of Mars explorations 40 years ago:

1. Multi Mission

The Viking mission consisted of four spacecraft – two orbiters and two landers. All four made significant science discoveries.

2. Last Minute Switch

The spacecraft eventually named Viking 2 was supposed to launch first, but a battery problem prompted us to send the second spacecraft first. Batteries recharged, Viking 2 was then sent to rendezvous with the Red Planet.

3. Not Quite the First

Viking 1 was the first to send back science from the surface of Mars, but the honor of the first Mars landing goes to the Soviet Union’s Mars 3. The Soviet spacecraft landed on Mars in December 1970, but sent back only 20 seconds of video data before going silent.

4. Viking 1 Quick Stats

Viking 1 was launched Aug. 20 1975, and arrived at Mars on June 19, 1976. On July 20, 1976, the Viking 1 lander separated from the orbiter and touched down at Chryse Planitia.

5. Viking 2 Quick Stats

Viking 2 was launched Sept. 9, 1975, and entered Mars orbit Aug. 7, 1976. The Viking 2 lander touched down at Utopia Planitia on Sept. 3, 1976.

For more information about the Viking missions, and to celebrate the 40th anniversary, check out our list of events HERE.

Discover the full list of 10 things to know about our solar system this week HERE. 

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Today we celebrate the mission that piqued our curiosities, and drove NASA’s perseverance to pursue further exploration of the Red Planet. The Sojourner rover landed on July 4, 1997, after hitching a ride aboard the Mars Pathfinder mission. Its innovative design became the template for future missions. The rover, named after civil rights pioneer Sojourner Truth, outlived its design life 12 times. This panoramic view of Pathfinder's Ares Vallis landing site shows Sojourner rover is the distance. Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com