Hello! I Am An Avid Lover Of The Cosmos And All Things Too Grand For Our Minds To Grasp. I Was Wondering,

It’s Women in Engineering Day

Today, June 23 is International Women in Engineering Day. We have many talented women across NASA that contribute to our success to reach for new heights and reveal the unknown for the benefit of humankind.

Happy Int'l Women in Engr Day! Love working @nasa to plan spacewalks, train astronauts, & flight control! #INWED17 #IAmANASAEngineer #nasa pic.twitter.com/pasndXB8sS

— Grier Wilt (@grierlauren)

June 23, 2017

Hearing from them illuminates the vibrant community of dedicated women who play a vital role at the agency. These women have pushed to pursue their dreams and make a difference everyday at NASA. 

Happy International Women in Engineering Day! #INWED17 #IAmANASAEngineer pic.twitter.com/yvhhAzGUYv

— ~Alexandria~ (@DOPECHICKBEATS)

June 23, 2017

We hope that these stories will inspire girls everywhere to reach for the stars and explore the myriad of opportunities available to them through pursuing careers in science, technology, engineering and mathematics.

Proud to call these awesome @NASA_Johnson women engineers my friends! Happy Int'l Women in Engineering Day! #INWED17 #IAmANASAEngineer @NASA pic.twitter.com/qGSiR2xVFo

— Jenny On Console (@JennyOnConsole)

June 23, 2017

Join us as we celebrate the achievements of our outstanding women engineers.

Happy International Women in Engineering Day!#IAmANASAEngineer #INWED17 #INWED2017 #KSC @NASA_LSP @NASA @NASAKennedy @kelleyjoooones pic.twitter.com/RRCt75ff5g

— Laura P. Rose (@lauraprose)

June 23, 2017

Learn more and hear stories from the Women at NASA community by visiting http://women.nasa.gov.

We are the smart, incredible women of @LockheedMartin that are building @NASA_Orion at @NASAKennedy ! #INWED17 #IAmANASAEngineer pic.twitter.com/HurWOvhYIn

— Chelsea (@Queen_Of_Quarks)

June 23, 2017

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Earth Facts that Live Rent-Free in Our Heads

Earth is a big weird planet. With so much going on, it’s easy to forget some of the many, many processes happening here. But at the same time, some stuff is so unexpected and just plain strange that it’s impossible to forget. We asked around and found out lots of people here at NASA have this problem.

Here are some facts about Earth that live rent free in our heads:

Earth has a solid inner core that is almost as hot as the surface of the Sun. Earth’s core gets as high as 9,800 degrees Fahrenheit, while the surface of the Sun is about 10,000 degrees Fahrenheit.

Dust from the Sahara fertilizes the Amazon rainforest. 27.7 million tons blow all the way across the Atlantic Ocean to the rainforest each year, where it brings phosphorus -- a nutrient plants need to grow.

Ice in Antarctica looks solid and still, but it’s actually flowing -- in some places it flows so fast that scientific instruments can move as much as a kilometer (more than half a mile!) a year.

Speaking of Antarctica: Ice shelves (the floating part of ice sheets) can be as big as Texas. Because they float, they rise and fall with the tide. So floating ice as big as Texas, attached to the Antarctic Ice Sheet, can rise and fall up to ~26 feet!

Melting ice on land makes its way to the ocean. As polar glaciers melt, the water sloshes to the equator, and which can actually slow the spin of Earth.

Even though it looks it, the ocean isn’t level. The surface has peaks and valleys and varies due to changes in height of the land below, winds, temperature, saltiness, atmospheric pressure, ocean circulation, and more.

Earth isn’t the only mind-blowing place out there. From here, we look out into the rest of the universe, full of weird planets and galaxies that surprise us.

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Sea Level Rise is on the Rise

As our planet warms, sea levels are rising around the world – and are doing so at an accelerating rate. Currently, global sea level is rising about an eighth of an inch every year.

That may seem insignificant, but it’s 30% more than when NASA launched its first satellite mission to measure ocean heights in 1992 – less than 30 years ago. And people already feel the impacts, as seemingly small increments of sea level rise become big problems along coastlines worldwide.

Higher global temperatures cause our seas to rise, but how? And why are seas rising at a faster and faster rate? There are two main reasons: melting ice and warming waters.

 The Ice We See Is Getting Pretty Thin

About two-thirds of global sea level rise comes from melting glaciers and ice sheets, the vast expanses of ice that cover Antarctica and Greenland. In Greenland, most of that ice melt is caused by warmer air temperatures that melt the upper surface of ice sheets, and when giant chunks of ice crack off of the ends of glaciers, adding to the ocean.

In Antarctica – where temperatures stay low year-round – most of the ice loss happens at the edges of glaciers. Warmer ocean water and warmer air meet at the glaciers’ edges, eating away at the floating ice sheets there.

NASA can measure these changes from space. With data from the Ice, Cloud and land Elevation Satellite-2, or ICESat-2, scientists can measure the height of ice sheets to within a fraction of an inch. Since 2006, an average of 318 gigatons of ice per year has melted from Greenland and Antarctica’s ice sheets. To get a sense of how big that is: just one gigaton is enough to cover New York City’s Central Park in ice 1,000 feet deep – almost as tall as the Chrysler Building.

With the Gravity Recovery and Climate Experiment Follow-On (GRACE-FO) mission -- a partnership with the German Research Centre for Geosciences -- scientists can calculate the mass of ice lost from these vast expanses across Greenland and Antarctica.

It’s not just glaciers in Antarctica and Greenland that are melting, though. Nearly all glaciers have been melting in the last decade, including those in Alaska, High Mountain Asia, South America, and the Canadian Arctic. Because these smaller glaciers are melting quickly, they contribute about the same amount to sea level rise as meltwater from massive ice sheets.

The Water’s Getting Warm

As seawater warms, it takes up more space. When water molecules get warmer, the atoms in those molecules vibrate faster, expanding the volume they take up. This phenomenon is called thermal expansion. It’s an incredibly tiny change in the size of a single water molecule, but added across all the water molecules in all of Earth’s oceans – a single drop contains well over a billion billion molecules – it accounts for about a third of global sea level rise.

So Much to See

While sea level is rising globally, it’s not the same across the planet. Sea levels are rising about an eighth of an inch per year on average worldwide. But some areas may see triple that rate, some may not observe any changes, and some may even experience a drop in sea level. These differences are due to ocean currents, mixing, upwelling of cold water from the deep ocean, winds, movements of heat and freshwater, and Earth’s gravitational pull moving water around. When ice melts from Greenland, for example, the drop in mass decreases the gravitational pull from the ice sheet, causing water to slosh to the shores of South America.

That’s where our view from space comes in. We’re launching Sentinel-6 Michael Freilich, an international partnership satellite, to continue our decades-long record of global sea level rise.

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Hubble Space Telescope

You’ve probably heard of our Hubble Space Telescope, but have you had the chance to actually take a look at the amazing images it has captured for us over the years? Since Hubble launched in April 1990,  it has made more than 1.2 million observations, some to locations more than 13.4 billion light years from Earth!

Hubble can see astronomical objects with an angular size of 0.05 arc seconds, which is like seeing a pair of fireflies in Tokyo from your home in Maryland…yea, that’s pretty far! This accuracy allows us to see images like this one of Little Gem Nebula, roughly 6,000 light-years away from us.

Images from Hubble are regularly released to the public, and are some of the most breathtaking views in the Universe. Images like this one of Lagoon Nebula, in the constellation of Sagittarius, not only make for amazing desktop screen-savers, but provide us with valuable scientific information about distant stars and galaxies, as well as the planets in our solar system.

We recently celebrated Hubble’s 25th Anniversary, and look forward to many more years of discovery and captivating images.

What’s Up for October 2016?

What’s Up for October? Moon phases, Astronomy Day, meteors and Saturn!

The new moon phase starts the month on October 1. Of course, the new moon isn't visible, because it's between Earth and the sun, and the unlit side is facing Earth. 

Night by night the slender crescent gets bigger and higher in the sky and easier to see just after sunset. On the 3rd and 4th, the moon will pass just above Venus!

A week later on the 9th the moon has traveled through one quarter of its 29-day orbit around Earth, and we see the first quarter phase. Also look for Mars just below the moon.

Join us in celebrating International Observe the Moon Night Saturday, October 8th, with your local astronomy club or science center. Conveniently, the 8th is also Fall Astronomy Day, celebrated internationally by astronomy clubs since 1973.

One week later on the 16th the moon reaches opposition, or the full moon phase, when the moon and the sun are on opposite sides of Earth. And the sun completely illuminates the moon as seen from Earth. 

During this phase, the moon rises in the east just as the sun is setting in the west. Overnight, the moon crosses the sky and sets at dawn.

A week later, on the 22nd of October, the last quarter moon rises at midnight. Later, the pretty and bright Beehive Cluster will be visible near the moon until dawn.

To wrap up the month, 29 days after the last new moon we start the lunar cycle all over again with another new moon phase on October 30th. Will you be able to spot the one-day old moon on Halloween? It will be a challenge!

There are three meteor showers in October--the Draconids, the Taurids and the Orionids. Try for the Draconids on October 8th.  

See the Taurids on October 10th. 

The Orionids will be marred by the full moon on the 21st, but all three meteor showers will offer some possible bright meteors.

Finally, you’ll have an especially pretty view of Saturn, when it forms a straight line with Venus and the red star Antares on the 27th.

You can catch up on NASA's lunar mission, the Lunar Reconnaissance Orbiter, the Cassini Mission to Saturn and all of our missions at www.nasa.gov.

Watch the full October “What’s Up" video for more:

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Leap Day…Why Does It Exist?

Once every four years, an extra calendar day is added: a leap day. But why?

The reason for adding leap days to the calendar is to align the calendar year with the actual year – which is defined by the time it takes Earth to circle the sun. It is equal to 365 days, 5 hours, 48 minutes and 46 seconds, or 365.24219 days.

If all calendar years contained exactly 365 days, they would drift from the actual year by about 1 day every 4 years. Eventually, July would occur during the northern hemisphere winter! Wouldn’t that be weird?

To correct (approximately), we add 1 day every 4 years...resulting in a leap year.

By making most years 365 days but every fourth year 366 days, the calendar year and the actual year remain more nearly in step.

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If the forecast in the town you are visiting says "partly cloudy" should you be worried you won't see anything? Looking at Hillsborough, Missouri (St. Louis area)

I believe you are in the path of totality in the St. Louise area. Even if there is complete cloud cover, you’ll likely still notice it getting darker, and you’ll definitely still feel the temperature drop. I’m not sure if you’ll notice odd animal behavior as that’s not my area of expertise, but I would think you might. I would say you should still go and see it! Especially if you are in an area with a chance of partly cloudy. You never know, the clouds may disappear for at least a portion of totality! 

Solar System: Things to Know This Week

1. See Shadows on Jupiter

Jupiter dominates the evening sky this month, rising at sunset and setting at dawn. On the nights of March 14 and 15, Jovian moons Io and Europa will cross the planet's disk. When the planet is at opposition and the sun shines on Jupiter's moons, we can see the moons' shadows crossing the planet. There are actually 11 of these double shadow transits in March.

2. One Year of Dawn at Ceres

NASA's Dawn spacecraft gently slid into orbit around Ceres just over one year ago, becoming the first spacecraft to reach a dwarf planet. Since then, the spacecraft has delivered a wealth of images and other data that open an exciting new window to this previously unexplored body in the asteroid belt.

3. The Latest from Saturn

Days ago, on Mar. 11, 2016, Cassini's Ultraviolet Imaging Spectrograph (UVIS) watched as the plume of gas and icy particles from the moon Enceladus passed in front of the central star in Orion's Belt. Such observations, known as stellar occultations, provide information about the density and composition of the plume.

4. The Equinox is Upon Us

March 20 is the vernal equinox--the start of spring in the northern hemisphere, and the start of fall in the southern hemisphere. During the two equinoxes each year, the line between day and night is vertical, so all over the planet, the length of the day and night are nearly equal. For the rest of the year, the Earth's tilt angles the line between day and night, culminating with the solstices, in which the poles receive weeks of unending sunshine or darkness depending on the time of year.

5. Up Close with a Comet

Before Rosetta crash lands into comet Comet 67P/Churyumov-Gerasimenko in September, 2016, it will continue taking pictures and detailed measurements of this mysterious comet to study the origin of comets and how they relate to the origin of the solar system.

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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8 Things to Know About Our Commercial Crew Program

Two years after selecting the next generation of American spacecraft and rockets that will launch astronauts to the International Space Station, engineers and spaceflight specialists across our Commercial Crew Program, Boeing and SpaceX are putting in place the elements required for successful missions.

1. The Goal

The goal of our Commercial Crew Program is to return human spaceflight launches to U.S. soil, providing reliable and cost-effective access to low-Earth orbit on systems that meet our safety requirements. To accomplish this goal, we are taking a unique approach by asking private companies, Boeing and SpaceX, to develop human spaceflight systems to take over the task of flying astronauts to station.

2. Multi-User Spaceport

Boeing and SpaceX, like other commercial aerospace companies, are capitalizing on the unique experience and infrastructure along the Space Coast at our Kennedy Space Center and Cape Canaveral Air Force Station. Kennedy has transitioned from a government-only launch complex to a premier multi-user spaceport. In the coming years, the number of launch providers along the Space Coast is expected to more than double.

3. Innovation

Our expertise has been joined with industry innovations to produce the most advanced spacecraft to ever carry humans into orbit. Each company is developing its own unique systems to meet our safety requirements, and once certified by us, the providers will begin taking astronauts to the space station.

4. Research

With two new spacecraft that can carry up to four astronauts to the International Space Station with each of our missions, the number of resident crew will increase and will double the amount of time dedicated to research. That means new technologies and advances to improve life here on Earth and a better understanding of what it will take for long duration, deep space missions, including to Mars.  

5. Crew Training

Astronauts Bob Behnken, Eric Boe, Doug Hurley and Suni Williams have been selected to train to fly flight tests aboard the Boeing CST-100 Starliner and SpaceX Crew Dragon.

The veteran crew have sent time in both spacecraft evaluating and training on their systems. Both providers are responsible for developing every aspect of the mission, from the spacesuits and training, to the rocket and spacecraft.

6. Launch Abort System

Boeing and SpaceX will equip their spacecraft with launch abort systems to get astronauts out of danger . . . FAST!

7. Expedited Delivery

Time-sensitive, critical experiments performed in orbit will be returned to Earth aboard commercial crew spacecraft, and returned to the scientists on Earth in hours, instead of days – before vital results are lost. That means better life and physical science research results, like VEGGIE, heart cells, and protein crystals.

8. Lifeboat 

The spacecraft will offer safe and versatile lifeboats for the crew of the space station, whether an emergency on-orbit causes the crew to shelter for a brief time in safety, or leave the orbiting laboratory altogether. Learn more HERE.

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Hurry! You Can Catch a Ride to Jupiter with NASA

Well, at least your name can.  

One of the planet Jupiter’s largest and most intriguing moons is called Europa. Evidence hints that beneath its icy shell, Europa hides an ocean of liquid water – more water than all of Earth’s oceans combined. In 2024, our Europa Clipper robotic spacecraft sets sail to take a closer look…and when it launches, your name can physically be aboard! Here’s how: 

NASA’s Message in a Bottle campaign invites people around the world to sign their names to a poem written by the U.S. Poet Laureate, Ada Limón. The poem connects the two water worlds — Earth, yearning to reach out and understand what makes a world habitable, and Europa, waiting with secrets yet to be explored.

The poem will be engraved on Europa Clipper, along with participants' names that will be physically etched onto microchips mounted on the spacecraft. Together, the poem and names will travel 1.8 billion miles to the Jupiter system.

Signing up is easy! Just go to this site to sign your name to the poem and get on board. You can send your name en español, too. Envía tu nombre aquí.

The Europa Clipper launch window opens in October 2024, but don’t wait – everyone’s names need to be received this year so they can be loaded onto the spacecraft in time. Sign up by Dec. 31, 2023.

We hope you’ll be riding along with us! Follow the mission at europa.nasa.gov.

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