2017年3月31日 星期五

NASAWatch Is 21

How scientists are scrambling to safeguard vital environmental data, PBS Newshour

"MILES O'BRIEN: While scientists wait to see what shoes might drop, a rumor mill echoes across the Twitterverse ... Are scientists in a panic? Is that what it is? What's going on?

KEITH COWING, NASA Watch: They know where the panic button is, and they look at it once or twice a day.

MILES O'BRIEN: Keith Cowing is a former NASA biologist who founded the watchdog Web site NASA Watch 20 years ago. He's the proto-rogue, and now he says everybody seems to be joining in."

Keith's note: NASAWatch turns 21 on 1 Apr 2017. It started as "NASA RIFWatch" on 1 Apr 1996 and was first hosted on a Mac Classic II on an ISDN line in my little condo in Reston, Virginia (see 20 Years Ago Today: The Seeds of NASAWatch). Here a few things from those early days that are still online:

- Rogue Webmasters, Government Executive, 1 Oct 1996
- NASA's Most Important Asset, Gerry Griffin, 31 December 1996
- Dan Goldin Comments to the Space Science Advisory Committee (SSAC) Meeting, 6/17/96
- Changes in Thinking At NASA November 29, 1996, PBS News Hour

Plus this piece from last year

- NASA Watch Celebrates 20 Years of Critiquing the Space Agency's Every. Single. Move., Inverse (2016)

Just to show you how things have changed, this photo should shock a few of you ... (well worth a click) - and no, it is not an April Fool's joke. Today, some up and coming bloggers and digeratti love to throw snark at me just like I threw it at Dan Goldin back in the day. Life is funny like that.

Those of you who have followed my 'other' exploits will know that I have had a certain interest in doing online updates from distant and extreme locations (Devon Island, Everest Base Camp, etc.). This website (still online), "The McMurdo Dry Valleys Long-Term Research Project - Life in Extreme Environments; An Antarctic Field Journal", done with my friend Dale Andersen, was one of the very earliest websites actually updated from Antarctica.

People have been asking me to look back on things and pick the events that are most memorable. After all I have spent 1/3 of my life running this thing. I have been given many chances to do things because of my peculiar notoriety. This shaky video, done live with my friend Miles O'Brien - about our mutual friend Scott Parazynski - while this picture was being taken - is the one singular moment where it all came together.

Thanks to all of you for stopping by for the past 21 years.



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Dawn Journal: Bonus Plans


Dawn Journal: Bonus Plans

Posted by Marc Rayman

31-03-2017 13:38 CDT

Topics: mission status, asteroids, Dawn, asteroid 1 Ceres

Dear Leonardo dawn Vinci, Micheldawngelo and Other Artistic Readers,

Now in its third year of orbiting a distant dwarf planet, a spacecraft from Earth is as active as ever. Like a master artist, Dawn is working hard to add fine details to its stunning portrait of Ceres.

In this phase of its extended mission, the spacecraft’s top priority is to record space radiation (known as cosmic rays) in order to refine its earlier measurements of the atomic species down to about a yard (meter) underground. The data Dawn has been collecting are excellent.

Canyons on Ceres

NASA / JPL-Caltech / UCLA / MPS / DLR / IDA

Canyons on Ceres

Dawn saw this rugged terrain on August 15, 2016, from an altitude of 240 miles (385 kilometers). This is the southeastern end of a network of canyons in Yalode Crater called Nar Sulcus. (Nar is from a modern pomegranate feast in part of Azerbaijan. A sulcus is a set of parallel furrows or ridges.) We saw the rest of these canyons as they extend far to the northwest 

here

. Geological structures like this have been found on some icy moons of the outer planets. The tremendous impact that formed Yalode heated the mixture of ice, rock and salt, which is a common combination on Ceres, perhaps causing a large volume to melt. When it subsequently refroze, it would have expanded (just as water does when it turns to ice in your freezer), and that may have created stresses that fractured the ground, forming Nar Sulcus. You can locate this scene in the eastern part of Yalode on 

this map

 near 41°S, 281°E. With a diameter of 162 miles (260 kilometers), Yalode is the second largest crater on Ceres. We have presented other photos of the crater, most recently in 

January

Full image and caption.

As we explained in January, the ambitious mission has added a complex bonus to its plans. The team is piloting the ship through an intricate set of space maneuvers to dramatically shift its orbit around Ceres. They are now about halfway through, and it has been smooth sailing. Dawn is on course and on schedule. (If you happen to be one of the few readers for whom it isn’t second nature to plan how to change a spacecraft’s orbit around a dwarf planet by 90 degrees and then fly it under control of ion engine, last month’s Dawn Journal presents a few of the details that may not be obvious. And you can follow the adventurer’s orbital progress with the regular mission status updates.)

If all goes well, on April 29 the new orbit will take Dawn exactly between the sun and the famous bright region at the center of Occator Crater. Named Cerealia Facula, the area is composed largely of salts. (Based on infrared spectra, the strongest candidate for the primary constituent is sodium carbonate). The probe will be at an altitude of about 12,400 miles (20,000 kilometers), or more than 50 times higher than it was in 2016 when it captured its sharpest photos of Occator (as well as the rest of Ceres’ 1.1 million square miles, or 2.8 million square kilometers). But the objective of reaching a position at which the sun and Ceres are in opposite directions, a special alignment known as opposition, is not to take pictures that display more details to our eyes. In fact, however, the pictures will contain intriguing new details that are not readily discerned by visual inspection. Dawn will take pictures as it gets closer and closer to opposition, covering a range of angles. In each image, scientists will scrutinize the handful of pixels on Cerealia Facula to track how the brightness changes as Dawn’s vantage point changes.

Occator Crater from afar

NASA / JPL-Caltech / UCLA / MPS / DLR / IDA

Occator Crater from afar

Dawn took this photo of Occator Crater on Oct. 18, 2016, at an altitude of 920 miles (1,480 kilometers) in 

extended mission orbit 2

. We have seen 

other views of Occator

, from farther, from closer, with exposures optimized for the brightest areas, in color, with the crater on the limb of Ceres and more, but you can never have too many pictures of such a captivating scene. The central bright region is Cerealia Facula, and the collection of others is Vinalia Faculae. (A bright region on a planet is a facula. 

Here

 is more on these names.) These are the brightest areas on Ceres. One scenario for how they formed is that underground briny water made its way to the surface through fractures. When the water was on the ground, exposed to the cold vacuum of space, it froze and sublimated (that is, it transformed from a solid to a gas). The dissolved salt was left behind, with sodium carbonate being the likely principal constituent, and that reflective material is what we see here. We will see below that opposition surge measurements may provide evidence to support or modify this scenario. (A recent estimate is that Cerealia Facula may be some tens of millions of years younger than the crater itself. We discussed last year 

how ages are determined

.) Since we can’t have too many views of this exotic scenery, another is below (and it shows the fractures that may have served as conduits for the water). Occator is on 

this map

 at 20°N, 239°E. 

Full image and caption

.

We described the opposition surge, in which the reflected sunlight at opposition may be significantly brighter than it is in any other geometrical arrangement. A few degrees or even a fraction of a degree can make a large difference. But why is that? What is the underlying reason for the opposition surge? What can we learn by measuring it? And is the best cake better than the best candy?

Those are all interesting and important questions. We will address some of them here and leave the rest for your own thorough investigation.

There are at least three separate physical effects that may contribute to the opposition surge. One of them is known as shadow hiding. When the sun shines on the ground, tiny irregularities in the surface, even at the microscopic level, will cast shadows. When you look at the ground, those shadows collectively detract from its overall brightness, even if each individual shadow is too small for you to see. The total amount of light reflected off the ground and into your eyes (or your camera) is less than it would be if every point, no matter how small, were well lit. However, if you look along the same direction as the incoming light, then all the shadows will be hidden. They will all be on the opposite side of those tiny irregularities, out of reach of both the incident light and your sight. In that case, anything you can see will be illuminated, and the scene will be brighter. The figure below is intended to illustrate this phenomenon of shadow hiding (and excluding the caption, the picture is probably worth almost 480 words).

Illustration of shadow hiding

NASA / JPL-Caltech

Illustration of shadow hiding

At the bottom is the ground on Ceres with greatly exaggerated crystals of salt pointing in random directions. (Shadow hiding occurs even with very small grains.) The white dashed lines show light from the sun, and each ray traces the light to the tip of a crystal and then to the point beyond. The solid black lines along the ground and the crystals are in shadow. That is, the incoming light cannot reach those places. Therefore, when Dawn is in the position on the right, looking along the same direction as the incoming light, it cannot see those shadows, because there is no line of sight to those hidden locations. In that special position, where Ceres is at opposition, every point on the ground Dawn sees is lit. When Dawn is in the position on the left, it does have a direct line of sight to some (although not all) shadows, as shown by the black dotted lines. Some of the ground it sees is lit and some is not. The difference between these two perspectives is the shadow-hiding component of the opposition surge. (Remember that these crystals are too tiny for Dawn to discern. One pixel in the explorer’s camera would take in this entire scene, so what matters is the total lit surface here, not the fine details.) Now at location 1, there are crystals that happen to point directly at Dawn when it is on the left, and at location 2, there are crystals that point directly at Dawn when it is on the right. You can see that at opposition, the shadows are hidden for both crystal orientations. But when Dawn is on the left, crystals pointing directly at it don’t provide a fully lit scene. Shadows are still visible. So, shadow hiding does not depend on any special alignment of crystals on the ground. It is the special observing location that matters. In summary, the ground appears brighter to Dawn when it is at opposition than when it is elsewhere. Although all crystals here are the same size, different crystal sizes may yield different shadowing and hence different opposition surge signatures. So, with a good measurement of the opposition surge, the crystal sizes may be determined. The self-portrait at right (biceps not to scale) is provided to illustrate your correspondent’s artistic skills. It should help you calibrate the fine details of the rest of the image. There are many simplifications here. In other words, take this diagram with a grain of sodium carbonate.

The opposition surge was first described scientifically in 1887 by Hugo von Seeliger, an accomplished astronomer and highly esteemed teacher of astronomers. He analyzed data collected by Gustav Müller when Earth’s and Saturn’s orbits around the sun brought Saturn into opposition, and the brightness of the rings increased unexpectedly. Seeliger realized that shadow hiding among the myriad particles in the rings could explain Müller’s observations. The opposition surge is occasionally known as the Seeliger effect. (Although astronomers had been observing the rings for more than two centuries by then, a careful scientific analysis to show that the rings were not solid but rather composed of many small particles had only been completed about 30 years before Seeliger’s advance.)

Now astronomers recognize the opposition surge on many solar system bodies, including Earth’s moon and the moons of other planets, as well as Mars and asteroids. In fact, it also occurs on many materials on Earth, including vegetation. Scientists exploit the phenomenon to determine the character of materials at a distance when they can make careful measurements at opposition.

For many solar system objects, however, it is difficult or impossible to position the observer along the line between the sun and the target. But thanks to the extraordinary maneuverability provided by Dawn’s ion engine, we may be able to perform the desired measurement in Occator Crater.

Occator in 3D

NASA / JPL-Caltech / UCLA / MPS / DLR / IDA

Occator in 3D

This 3-D image of part of 

Occator Crater

, the brightest area on Ceres, was created with photos from Dawn’s lowest altitude orbit at 240 miles (385 kilometers). The spacecraft took pictures of this scenery from different angles, forming stereo views. To perceive the 3-D, you need colored filters, with red for your left eye and blue for your right. (You can get a 4-D view by looking at it for a while. However, apart from the daily and annual changes in the angle of the incoming sunlight, no changes are expected to be discernible even over a few years.) If you don’t have access to stereo glasses, you can see a more conventional photo 

here

. The bright region on the left, Cerealia Facula, is about nine miles (14 kilometers) across, and the stereo reveals a dome that rises to about 1,300 feet (400 meters). The other bright areas are collectively called Vinalia Faculae. Occator is on 

this map

 at 20°N, 239°E. 

Full image and caption

.

It was nearly a century after Seeliger’s description of shadow hiding before scientists realized that there is another contributor to the opposition surge, which we mention only briefly here. It depends on the principle of constructive interference, which applies more in physics than in politics. Waves (in this case, light waves) that have their crests at the same places can add up to be especially strong (which makes the light bright). (Destructive interference, which may be more evident outside of the physics realm, occurs when troughs of one wave cancel crests of another.) We will not delve into why constructive interference tends to occur at opposition, but anyone with a thorough understanding of classical electromagnetic theory can work it out, as physicists did in the 1960s to 1980s. (More properly, it should be formulated not classically but quantum mechanically, but we recognize that some readers will prefer the former methodology because it is, as one physicist described it in 1968, "much simpler and more satisfying to the physical intuition." So, why make it hard?) For convenient use to ruin parties, the most common term for constructive interference in the opposition surge is coherent backscatter, but it sometimes goes by the other comparably self-explanatory terms weak photon localization and time reversal symmetry. Regardless of the name, as the light waves interact with the material they are illuminating at opposition, constructive interference can produce a surge in brightness.

The intensity of the opposition surge depends on the details of the material reflecting the light. Even the relative contributions of shadow hiding and coherent backscatter depend on the properties of the materials. (While both cause the reflected light to grow stronger as the angle to opposition shrinks, coherent backscatter tends to dominate at the very smallest angles.)

Especially sensitive laboratory measurements show that sometimes shadow hiding and coherent backscatter together are not sufficient to explain the result, so there must be even more to the opposition surge. The unique capability of science to explain the natural world, shown over and over and over again during the last half millennium, provides confidence that a detailed theoretical understanding eventually will be attained.

Part of science’s success derives from its combination of experiment and theory. For now, however, the opposition surge is more in the domain of the former than the latter. In other words, translating any opposition surge observation into a useful description of the properties of the reflecting material requires controlled laboratory measurements of well characterized materials. They provide the basis for interpreting the observation.

Seasons on Ceres

NASA / JPL-Caltech / UCLA / MPS / DLR / IDA

Seasons on Ceres

This short animation shows how the illumination of the northern hemisphere changes as Ceres’ axial tilt changes from 2 to 12 to 20 degrees. (In each frame, the lighting is shown on the summer solstice, when the sun reaches its greatest northern latitude.) We have discussed the 

orientation of the dwarf planet’s axis

 before. As we saw, it is tipped only 4 degrees, causing much more modest changes in lighting throughout each Cerean year (which is 4.6 terrestrial years) than Earth (and perhaps your planet) experiences. However, the gravitational tugs of Jupiter and Saturn, despite their distance, tip the axis. The angle can change from as little as 2 degrees to as much as 20 degrees in only about 12,000 years, which astronomers consider to be very fast. (Earth’s axis is tilted 23.5 degrees and is stabilized by the moon. Mars, which lacks a sizable moon, also goes through dramatic changes in axial tilt, although much more slowly than Ceres.) 

The angle of the sun near the poles is an important factor for where ice might accumulate

. The animation shows the regions that would stay in shadow throughout every Cerean day of a full Cerean year, with blue for 2 and 12 degrees and red for 20 degrees. (The blue at 12 degrees is difficult to see.) When the sun goes farther north, it shines deeper into craters, illuminating and warming locations that would remain in shadow if the sun could not rise as high in the sky. 

Full image and caption

.

If Dawn accomplishes the tricky measurements (which we will describe next month), scientists will compare the Cerealia Facula opposition surge with lab measurements of the opposition surge. As always in good science, to establish the details of the experiments, they will start by integrating the knowledge already available, including the tremendous trove of data Dawn has already collected -- spectra of neutrons, gamma rays, visible light and infrared light plus extensive color and stereo photography and gravity measurements. In the context of their understanding of physics, chemistry and geology throughout the solar system, scientists will determine not only the mixtures of chemicals to test but also the properties such as grain sizes and how densely packed the particles are. They will perform experiments then on many combinations of credible facular composition and properties. Comparing those results with Dawn’s findings, they will be able to elucidate more about what really is on the ground in that mesmerizing crater. For example, if they determine the salt crystals are small, that may mean that salty water had been on the ground and sublimated quickly in the vacuum of space. But if the salt came out of solution more slowly underground and was later pushed to the surface by other geological processes, the crystals would be larger.

It is an impressive demonstration of the power of science that we can navigate an interplanetary spaceship to a particular location high above the mysterious, lustrous landscape of a distant alien world and gain insight into some details that would be too fine for you to see even if you were standing on the ground. Using the best of science, Dawn is teasing every secret it can from a relict from the dawn of the solar system. On behalf of everyone who appreciates the majesty of the cosmos, our dedicated, virtuoso artist is adding exquisite touches to what is already a masterpiece.

Dawn is 31,400 miles (50,500 kilometers) from Ceres. It is also 3.48 AU (324 million miles, or 521 million kilometers) from Earth, or 1,430 times as far as the moon and 3.48 times as far as the sun today. Radio signals, traveling at the universal limit of the speed of light, take 58 minutes to make the round trip.

Dr. Marc D. Rayman
4:00 p.m. PDT March 30, 2017

 

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Or read more blog entries about: mission status, asteroids, Dawn, asteroid 1 Ceres



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Dr. Nancy Grace Roman, Astronomer


Dr. Nancy Grace Roman is shown with a model of the Orbiting Solar Observatory (OSO) in 1962. She was the first Chief of Astronomy in the Office of Space Science at NASA Headquarters and the first woman to hold an executive position at NASA. She had oversight for the planning and development of programs including the Hubble Space Telescope. via NASA http://ift.tt/2ohUxc9

ISS Daily Summary Report – 3/30/2017

U.S. Extravehicular Activity (EVA) #41: EV1 Kimbrough and EV2 Whitson completed the following tasks during today’s 7 hour 3 minute External (EXT) Enhanced Processor and Integrated Communications (EPIC) Multiplexer/Demultiplexer (MDM) / Shields Installation EVA.  During the final translation back to the airlock, Whitson’s Helmet Light Assembly came loose from her helmet.  Kimbrough was able to tether to a bracket on the assembly, disconnect the electrical connections, and fully remove the Helmet Light Assembly to assist in ingress.  Planned Tasks Zenith EXT EPIC MDM R&R PMA3 Connect PMA3 Cover Removal Node 3 Axial Shields Install Forward Zenith, Forward Nadir, Forward Aft were completed. During preparation for install, one of four of the axial shields was lost. The Aft Zenith location was shielded with the PMA3 cover.  The lost shield is forward of ISS with a retrograde component and there is good confidence that it will phase out of the ISS plane. PMA 3 Cummerbunds Install Get-ahead Task N2 Common Berthing Mechanism (CBM) Inspection and partial cleaning Took photos of contamination sites #4 and #38 Cleaned contamination at site #4 and took post cleaning photos Mobile Servicing System:  The Robotics Ground Controllers powered up the MSS and used the Space Station Remote Manipulator System (SSRMS) for video support of the EVA #41.  The Ground Controllers then maneuvered the SSRMS to a stow configuration which also provided additional views for the Node 2 Nadir Common Berth Mechanism (CBM) cleaning activity.  MSS performance was nominal.  Sally Ride Earth Knowledge Acquired by Middle Schools (EarthKAM): This morning the crew successfully installed and activated the EarthKAM payload in the Node 2 nadir hatch window. Science operations using the EarthKAM setup will begin next week, marking the beginning of the 57th EarthKAM mission. This session includes over 200 schools in more than 50 countries around the world and is scheduled to last through April 9. This is a NASA education program that enables thousands of students to photograph and examine Earth from a space crew’s perspective. Using the Internet, the students control a special digital camera mounted on-board the ISS. This enables them to photograph the Earth’s coastlines, mountain ranges and other geographic items of interest from the unique vantage point of space. The team at Sally Ride EarthKAM then posts these photographs on the Internet for the public and participating classrooms around the world to view. Today’s Planned Activities All activities were completed unless otherwise noted. LAB BelAir Wireless Access Points (WAPs) Powerdown and Disconnect ISS HAM Radio and Video Power Down EVA COTS UHF Communication Unit (CUCU)  Verify off USOS Window Shutter Close Extravehicular Activity (EVA) In-Suit Light Exercise (ISLE) Preparation Internal Audio Subsystem (IAS) Extravehicular Activity (EVA) Communication Configuration EarthKAM Node 2 Setup and Activation-Russian ISS Crew departure preparation PROBIOVIT Experiment Ops Filling Water Container No.3 Extravehicular Mobility Unit (EMU) Purge Hardware prepack for return and disposal on Soyuz 732 Extravehicular Mobility Unit (EMU) In-Suit Light Exercise (ISLE) Prebreathe Crewlock Depress Crewlock Egress EPIC MDM Remove and Replace PMA3 Connections PMA3 Cover Removal Node 3 Axial Shields Install Video Recording of Greetings Download of BRI log from RSS1 PILOT-T. Preparation for the experiment Hardware prepack for return and disposal on Soyuz 732 PILOT-T. Experiment Ops PMA3 Cummerbunds Install Extravehicular Activity (EVA) Get Ahead Tasks CONTENT. Experiment Ops Crewlock Ingress EVA Glove Photo Setup Crewlock Repress Extra Vehicular Activity (EVA) Post-EVA Activities Internal Audio Subsystem (IAS) EVA Communication Deconfiguration EVA Glove Photo Downlink Photo/TV EVA Camera Disassembly Crew Discretionary Event Metal Oxide (METOX) Regeneration Initiation Photo/TV Extravehicular Activity (EVA) GoPro Downlink LAB BelAir Wireless Access Point (WAP) Connect Power Cable and Power ON Completed Task List Items None Ground Activities All activities were completed unless otherwise noted. EVA #41 support EXT MDM Checkout Three-Day Look Ahead: Friday, 03/31: Crew departure prep, EVA debrief/cleanup Saturday, 04/01: Crew off duty, housekeeping Sunday, 04/02: Crew off duty QUICK ISS Status – Environmental Control Group:   Component Status Elektron On Vozdukh Manual [СКВ] 1 – SM Air Conditioner System (“SKV1”) Off          [СКВ] 2 – SM Air Conditioner System (“SKV2”) On Carbon Dioxide Removal Assembly (CDRA) Lab Standby Carbon Dioxide Removal Assembly (CDRA) Node 3 Operate Major Constituent Analyzer (MCA) Lab Operate Major Constituent Analyzer (MCA) Node 3 Standby Oxygen Generation Assembly (OGA) Process Urine Processing Assembly (UPA) Reprocess Trace Contaminant Control System (TCCS) Lab Off Trace Contaminant Control System (TCCS) Node 3 Full Up  

March 31, 2017 at 12:00AM
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NASA Caught in the Middle of SSL vs Orbital ATK Lawsuit

Is the Data Breach by Orbital ATK of SSL Data on a NASA Server Corporate Espionage?, SpaceQ [With audio]

"On December 6, 2016 Space Systems Loral (SSL), a subsidiary of MacDonald Dettwiler and Associates Ltd. (MDA), was notified by NASA's Marshall Space Flight Center that there had been a data breach of their proprietary data on a NASA server. Orbital ATK was responsible. SSL is now suing them, and publicly, it looks bad for Orbital ATK."



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2017年3月30日 星期四

Elon Musk Now Flies Used Rockets



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SpaceX Makes History, Again

SpaceX Makes History With Reuse of First Stage

"SpaceX made history today with the successful reuse of the the Falcon 9 first stage and then successfully landed that same first stage for future reuse, again."

"The SES-10 satellite is in geostationary transfer orbit"



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Shana Dale Has New Roles At NASA

Keith's note: One of the signs on a reserved chair in the NAC meeting room has a name tag for Shana Dale with titles "Chief of Staff (acting)" and "Senior White House Advisor" on it. One would assume that she assumed these roles when Trump transition team member Erik Noble (who had these jobs) left NASA last week. It is my understanding that she is only at NASA on loan from FAA for a few months.



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A letter from Bill Nye: Why we're marching for science



A letter from Bill Nye: Why we're marching for science

Posted by Bill Nye

30-03-2017 10:21 CDT

Topics: events and announcements

Greetings, members, supporters and global community,

Big news: The Planetary Society will join the March for Science. I am serving as an honorary Co-Chair for the March, and The Planetary Society is an official partner. I will march at the main event in Washington, D.C., but there will be upward of 400 sister marches around the world. We will assemble with citizens everywhere, whether they are formal scientists or thoughtful citizens from other walks of life, to march in support of science. 

After all: science is universal

Why are we marching? 

The Planetary Society empowers the world’s citizens to advance space science and exploration. We’re a nonpartisan organization of over 50,000 members, diverse people with a spectrum of political beliefs, united in their support for space and science. We focus on planetary exploration, both robotic and human. We support NASA and the space agencies of countries around the globe. We have a responsibility to support the exploration of the deep cosmos, the Sun, the Earth, as well as our own solar system.

One of the Society’s core values is Science, the rigorous process that has enabled humankind to understand the cosmos and our place within it. Science, and the technology that flows from it, has provided humans with the means to feed billions, and know nature in a way that our ancestors could not have imagined. The Planetary Society’s mission aligns with the mission of the March for Science.

The March for Science champions robustly funded and publicly communicated science as a pillar of human freedom and prosperity. We unite as a diverse, nonpartisan group to call for science that upholds the common good and for political leaders and policymakers to enact evidence-based policies in the public interest.

We march to celebrate science. We celebrate science everyday as we advocate, create and educate to advance our mission. Space science is a prime reason to be excited today and optimistic about our future. There’s immense value in exploring other worlds like Mars, Pluto, and Europa— the moon of Jupiter with twice as much seawater as Earth. As we seek to understand the cosmos and our place within it, we come closer to knowing the answers to these two questions: where did we come from? And, are we alone in the universe? In addition to valuable discoveries, space science creates jobs, produces innovations, and enables investments. The money spent on space is spent entirely on Earth; it supports tens of thousands of jobs in the U.S. alone. Private aerospace companies are making enormous strides in lowering the cost of spaceflight and advancing space science. A next generation of entrepreneurs and inventors is blazing a trail to Mars and beyond. We may find life elsewhere, get humans on the Martian surface, and witness the opening of a new marketplace in space. Space exploration brings out the best in us. It’s uplifting. People are excited. Young innovators are inspired. Space exploration is something to celebrate.

We march to advocate for space. There’s a new movement for space. In just 60 years, we have gone from testing our first rockets, to humans walking on the Moon, to sending robots to all the major planets and Pluto. We’re now learning about planets orbiting distant stars. With each accomplishment in space, new mysteries arise and beckon us to keep exploring, flying farther and deeper into the cosmos. Our work is just getting started. From weather reports, to global navigation, to magnetic ripples from the Big Bang, space benefits and fascinates us. Space is not a partisan issue.

We march to inspire unity. When we explore the cosmos, we come together and accomplish extraordinary things. Space science brings people of all walks of life together to solve problems and experience the unparalleled awe of exploration. Everyone - regardless of race, gender, creed or ability -  is welcome in our journey to advance space science. Our future depends on science, and space exploration is an invaluable investment of our intellect and capabilities.

Space brings out the best in us. Science connects us. 

Carl Sagan, my astronomy professor at Cornell University, cofounded The Planetary Society. He was a space science champion, advocate and communicator. He inspired the world to experience space science and delight in discoveries: achieved and within reach. His legacy lives on, through us: through you. 

See you in Washington, and around the world.

***

How to Join The Planetary Society in the March for Science

March: March at one of the 393 (and counting) events worldwide: RSVP today

Sport a “Science is Universal” t-shirt: Our exclusive shirt from Omaze benefits The Planetary Society.

Take Action: Can’t march in person? There are other powerful ways to participate:

 

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Robotics Work on Space Station Set Up Thursday Spacewalk


The Pressurized Mating Adapter-3 (PMA-3) is in the grip of the International Space Station's Canadarm2 robotic arm during its relocation and attachment to the station's Harmony module on March 26,2017. A spacewalk by NASA astronauts Shane Kimbrough and Peggy Whitson, which began at 7:29 a.m., will finalize the PMA-3 cable connections on Harmony. via NASA http://ift.tt/2nzAyCU

ISS Daily Summary Report – 3/29/2017

Dose Tracker Data Entry: The crew performed their weekly Dose Tracker data logging, responding to a questionnaire which asks if crew members have used medications since the last entry, what prompted them to use the medication, how well it worked, how frequently they repeated doses, and if the medication caused side effects. The Dose Tracker investigation uses an iPad app to collect information on members’ medication use during their missions. Results help determine whether medicines act differently on humans in space than they do on Earth.  European Space Agency (ESA) Active Dosimeter Swap: The crew swapped the currently worn Mobile Unit (MU) with a charged MU and initiated the data download to the ESA Active Dosimeter Personal Stowage Device (PSD).  The European Crew Personal Active Dosimeter is an active device worn by European ISS crewmembers in orbit to measure the radiation exposure. This device, coupled with other dosimeters in ESA’s Columbus Laboratory, provides radiation dosage information that can be used to support risk assessment and dose management. The future goal is to enable the verification of radiation monitoring systems for future medical monitoring of crewmembers in space. U.S. Extravehicular Activity (EVA) #41 Preparations: In preparation for tomorrow’s planned EVA, today the crew completed the following: Configured tools required for the EVA. Verified that batteries are installed in Pistol Grip Tools (PGTs) and EVA cameras. Prepared the Equipment Lock, EMUs and ancillary hardware to support EVA prep activities. Procedures review including detailed timeline, briefing package, tool config summary and planned get-ahead tasks. Following the procedures review the crew participated in a conference with ground teams to discuss questions or concerns. The crew is scheduled to egress at 7:10AM CDT. Today’s Planned Activities All activities were completed unless otherwise noted. Recharging Soyuz 733 Samsung PC Battery (if charge level is below 80%) Dose Tracker Data Entry Subject [СКВ1] Electrical Cables Checkout SCENARIO. Observations and photography ISS Crew departure preparation Health Maintenance System (HMS) Periodic Health Status (PHS) Pre EVA Examination Health Maintenance System (HMS) Pre-EVA Periodic Health Status Examination Demating telemetry connectors [СКВ1] Electrical Cables Checkout ESA Weekly crew conference ELECTRONIC NOSE. Experiment Ops Part 1 Study of cardiac bioelectric activity at rest Mating telemetry connectors [СКВ1] Electrical Cables Checkout ESA ACTIVE DOSIMETER MOBILE UNIT SWAP Separation and Pumping Unit [БРПК-2] R&R Recharging Soyuz 732 Samsung PC Battery (if charge level is below 80%) Pille sensors prep for USOS EVA Dose Tracker Data Entry Subject Scheduled monthly maintenance of Central Post Laptop. Laptop Log-File Downlink via OCA Extravehicular Activity (EVA) Tool Configuring Mating of telemetry connectors Separation and Pumping Unit [БРПК-2] R&R Conference of Search and Rescue (ГПСК) specialists with returning crew Extravehicular Activity (EVA) Tool Audit. Private Psychological Conference (PPC) ELECTRONIC NOSE. Experiment Ops Part 2 Terminate Soyuz 733 Samsung PC Battery Charge Filling (separation) of ЕДВ (КОВ) for Elektron or ЕДВ-СВ Program Management/ISS CREW Conference ELECTRONIC NOSE. Photography CCE Preparation Extravehicular Activity (EVA) iPad Contingency Procedures preparation Extravehicular Activity (EVA) Procedure Review Verification of ИП-1 Flow Indicator Position PROBIOVIT. CRYOGEM-03 refrigerator Setup PROBIOVIT. Glovebox-S Setup CONTENT. Experiment Ops ISS HAM Service Module Pass Terminate Soyuz 732 Samsung PC Battery Charge Equipment Lock (E-LK) Preparation SM windows Nos.6,8,9,12,13,14 shutter closure        Completed Task List Items None  Ground Activities All activities were completed unless otherwise noted. EVA procedures review conference Three-Day Look Ahead: Thursday, 03/30: EVA #41 Friday, 03/31: Crew departure prep, EVA debrief/cleanup Saturday, 04/01: Crew off duty, housekeeping QUICK ISS Status – Environmental Control Group:   Component Status Elektron On Vozdukh Manual [СКВ] 1 – SM Air Conditioner System (“SKV1”) Off           [СКВ] 2 – SM Air Conditioner System (“SKV2”) On Carbon Dioxide Removal Assembly (CDRA) Lab Standby Carbon Dioxide Removal Assembly (CDRA) Node 3 Operate Major Constituent Analyzer (MCA) Lab Operate Major Constituent Analyzer (MCA) Node 3 Standby Oxygen Generation Assembly (OGA) Process Urine Processing Assembly (UPA) Reprocess Trace Contaminant Control System (TCCS) Lab Off Trace Contaminant Control System (TCCS) Node 3 Full Up  

March 30, 2017 at 12:00AM
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Young Stars and Dusty Nebulae in Taurus


This complex of dusty nebulae lingers along the edge of the Taurus molecular cloud, a mere 450 light-years distant. Stars are forming on the cosmic scene. Composed from almost 40 hours of image data, the 2 degree wide telescopic field of view includes some youthful T-Tauri class stars embedded in the remnants of their natal clouds at the right. Millions of years old and still going through stellar adolescence, the stars are variable in brightness and in the late phases of their gravitational collapse. Their core temperatures will rise to sustain nuclear fusion as they grow into stable, low mass, main sequence stars, a stage of stellar evolution achieved by our middle-aged Sun about 4.5 billion years ago. Another youthful variable star, V1023 Tauri, can be spotted on the left. Within its yellowish dust cloud, it lies next to the striking blue reflection nebula Cederblad 30, also known as LBN 782. Just above the bright bluish reflection nebula is dusty dark nebula Barnard 7. via NASA http://ift.tt/2o9e3rJ

2017年3月29日 星期三

California Students to Speak to NASA Astronauts on International Space Station

Students from Betsy Ross Elementary School in Anaheim, California, will speak with NASA astronauts living and working aboard the International Space Station at 11:40 a.m. EDT Monday, April 3.

March 29, 2017
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NASA Awards Facilities Engineering Design, Inspection Services Contract

NASA has awarded an architect and engineering services contract to Accura Rosser 8(a) JV of Atlanta to perform engineering design and inspection services at the agency’s Marshall Space Flight Center in Huntsville, Alabama.

March 29, 2017
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OIG: NASA Needs A Better Parts Quality Control Process

NASA OIG: NASA's Parts Quality Control Process

"Although NASA has a number of initiatives in place to help ensure the selection of quality parts from reliable suppliers, Centers generally manage their parts quality and supplier assessment data unilaterally rather than collaborating through a comprehensive, integrated, Agency-wide parts and supplier information system. Specifically, the Agency does not maintain a centralized parts quality history database or facilitate the integration of individual Center systems, track all relevant supplier performance history, or enforce requirements that Centers participate in Agency parts quality management systems. Without these control mechanisms, it is more difficult for NASA to mitigate the risk of nonconforming parts entering its project hardware supply chain. ...

... In addition, NASA policy requires project managers to consider risk factors when preparing Program/Project Quality Assurance Surveillance Plans for critical and complex acquisitions. These plans document contractor operations that need Government oversight and the activities, metrics, control mechanisms, and organizations that will conduct quality assurance functions for the project. We found the Agency's current policy does not provide sufficient surveillance and audit planning guidance for project personnel to analyze and select contractor surveillance activities commensurate with the level of risk of nonconforming parts being incorporated into a product."



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NASA to Preview ‘Grand Finale’ of Cassini Saturn Mission

NASA will hold a news conference at 3 p.m. EDT Tuesday, April 4, at the agency’s Jet Propulsion Laboratory (JPL) in Pasadena, California, to preview the beginning of Cassini's final mission segment, known as the Grand Finale, which begins in late April. The briefing will air live on NASA Television and the agency’s website.

March 29, 2017
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The Splitting of the Dunes


The mound in the center of this Mars Reconnaissance Orbiter image appears to have blocked the path of the dunes as they marched south (north is to the left in this image) across the scene. Smaller dunes run perpendicular to some of the larger-scale dunes, probably indicating a shift in wind directions in this area. via NASA http://ift.tt/2nAjle8

ISS Daily Summary Report – 3/28/2017

Body Measures: Earlier this morning, the 49S subject performed the Body Measures Flight Day (FD) 135 session. With assistance from a trained operator the crew conducted a Body Measures data collection, configuring still cameras and video and collecting the Neutral Body Posture video prior to stowing the equipment. NASA is collecting in-flight anthropometric data (body measurements) to assess the impact of physical body shape and size changes on suit sizing. Still and video imagery is captured and a tape measure is used to measure segmental length, height, depth, and circumference data for all body segments (chest, waist, hip, arms, legs, etc.) from astronauts before, during and after their flight missions. Fine Motor Skills (FMS): The crew performed their FMS sessions this morning on a touchscreen tablet where the crew completes a series of interactive tasks. The investigation studies how fine motor skills are effected by long-term microgravity exposure, different phases of microgravity adaptation, and sensorimotor recovery after returning to Earth’s gravity. The goal of FMS is to answer how fine motor performance in microgravity trend/vary over the duration of a six-month and year-long space mission; how fine motor performance on orbit compare with that of a closely matched participant on Earth; and how performance trend/vary before and after gravitational transitions, including the periods of early flight adaptation, and very early/near immediate post-flight periods. Advanced Colloids Experiment Temperature Control -1 (ACE-T-1) Module Installation: The crew reconfigured the Fluids Integrated Rack (FIR) Light Microscopy Module (LMM) for the ACE-T-1 experiment. ACE-T-1 studies tiny suspended particles which have been designed by scientists to connect themselves in a specific way to form organized structures in water. The particles that were flown on HTV-6 are cylindrical in shape versus bullet-shaped that the previous ACE-T-1 module investigated. Materials having complex structures and unique properties potentially can be made with additional knowledge of how these particles are joined together and the conditions which control their behaviors. FIR is a complementary fluid physics research facility designed to host investigations in areas such as colloids, gels, bubbles, wetting and capillary action, and phase changes including boiling and cooling. Environmental Health System (EHS) Compound Specific Analyzer-Combustion Products (CSA-CP) Maintenance: The crew completed this regularly scheduled maintenance to replace the battery packs and zero calibrate all CSA-CPs.  U.S. Extravehicular Activity (EVA) #41 Preparations: In preparation for this Thursday’s planned EVA, the crew performed the following: Configured tools required for the EVA. Inspected all safety, waist tethers and D-ring extenders for structural integrity. Installed Rechargeable EVA Battery Assembly (REBA) in EMUs 3006 and 3008. Configured Dynamic Onboard Ubiquitous Graphics (DOUG) to receive and display real-time Space Station Remote Manipulator System (SSRMS) joint angle telemetry from a Portable Computer System (PCS) laptop. Also start and configure DOUG without real-time SSRMS joint angle telemetry. Today’s Planned Activities All activities were completed unless otherwise noted. Virus Definition File Update on Auxiliary Computer System (ВКС) Laptops Combustion Integrated Rack Alignment Guide Installation Body Measures Experiment Operations – Subject Fine Motor Skills Experiment Test – Subject Recovery of Rheoencephalogram [РЭГ] Data Output Device [УСИ] operation [СКВ1] Electrical circuit continuity check, Preparation Body Measures Experiment Operations – Operator Life On The Station Photo and Video Tropical Cyclone Hardware Closeout Orthostatic Stability Evaluation with LBNP Evaluation of Orthostatic Stability with LBNP (assistance) Extravehicular Activity (EVA) Tool Configuring Regenerative Environmental Control and Life Support System (ECLSS) Recycle Tank Drain Fine Motor Skills Experiment Test – Subject Orthostatic Stability Evaluation with LBNP Environmental Health System (EHS) Total Organic Carbon Analyzer (TOCA) Water Recovery System (WRS) Sample Analysis Regenerative Environmental Control and Life Support System (ECLSS) Recycle Tank Drain Part 2 Regenerative Environmental Control and Life Support System (RGN) Wastewater Storage Tank Assembly (WSTA) Fill Replacement of ПФ1, ПФ2 Dust Filters and Cleaning В1, B2 Fan Screens in MRM2 Inspect CWC-I attached to UPA SPA Regenerative Environmental Control and Life Support System (RGN) Wastewater Storage Tank Assembly (WSTA) Fill Node 1 Nadir Hatch latch KENTAVR fit check Analysis of SM Atmosphere for Freon Using Freon Leak Analyzer/Detector (ФИТ) Regenerative Environmental Control and Life Support System (RGN) Wastewater Storage Tank Assembly (WSTA) Fill Regenerative Environmental Control and Life Support System (ECLSS) Recycle Tank Fill Part 3 Crew Departure Preparations for Return to Earth Environmental Health System (EHS) Total Organic Carbon Analyzer (TOCA) Sample Data Record US Extravehicular Activity (EVA) Tether Inspection Replacement of [АСУ] components Photo TV Extra Vehicular Activity (EVA) Camera Turnaround [Aborted] Extravehicular Mobility Unit (EMU) Long Life Battery (LLB)/Metal Oxide (METOX) Installation Battery Stowage Assembly (BSA) Operation Termination PILOT-T. Preparation for the experiment Environmental Health System (EHS) – Compound Specific Analyzer-Combustion Products (CSA-CP) Extended Maintenance PILOT-T. Experiment Ops Fluids Integrated Rack Doors Open LMM ACE T1 Configure Fluids Integrated Rack Doors Close PILOT-T. Experiment Ops Extravehicular Activity (EVA) Yellow Paint Mitigation Delta file prep Photo TV GoPro Setup PHYSICAL EXERCISE – БД-2 Rechargeable EVA Battery Assembly (REBA) Installation and Powered Hardware Checkout Regenerative Environmental Control and Life Support System (RGN) Wastewater Storage Tank Assembly (WSTA) Fill Portable Onboard Computers (POC) Dynamic Onboard Ubiquitous Graphics (DOUG) Software Review PILOT-T. Closeout Ops            Completed Task List Items Replace KTO Ground Activities All activities were completed unless otherwise noted. Nominal System Commanding  Three-Day Look Ahead: Wednesday, 03/29: Crew departure prep, Dose Tracker, EVA prep Thursday, 03/30: EVA #41 Friday, 03/31: Crew departure prep, EVA debrief/cleanup QUICK ISS Status – Environmental Control Group:   Component Status Elektron On Vozdukh Manual [СКВ] 1 – SM Air Conditioner System (“SKV1”) Off           [СКВ] 2 – SM Air Conditioner System (“SKV2”) Off Carbon Dioxide Removal Assembly (CDRA) Lab Standby Carbon Dioxide Removal Assembly (CDRA) Node 3 Operate Major Constituent Analyzer (MCA) Lab Operate Major Constituent Analyzer (MCA) Node 3 Operate Oxygen Generation Assembly (OGA) Process Urine Processing Assembly (UPA) Reprocess Trace Contaminant Control System (TCCS) Lab Off Trace Contaminant Control System (TCCS) Node 3 Full Up  

March 29, 2017 at 12:00AM
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2017年3月28日 星期二

King of Wings Hoodoo under the Milky Way


This rock structure is not only surreal -- it's real. The reason it's not more famous is that it is, perhaps, smaller than one might guess: the capstone rock overhangs only a few meters. Even so, the King of Wings outcrop, located in New Mexico, USA, is a fascinating example of an unusual type of rock structure called a hoodoo. Hoodoos may form when a layer of hard rock overlays a layer of eroding softer rock. Figuring out the details of incorporating this hoodoo into a night-sky photoshoot took over a year. Besides waiting for a suitably picturesque night behind a sky with few clouds, the foreground had to be artificially lit just right relative to the natural glow of the background. After much planning and waiting, the final shot, featured here, was taken in May 2016. Mimicking the horizontal bar, the background sky features the band of our Milky Way Galaxy stretching overhead. via NASA http://ift.tt/2mI4Fel

NASA Announces Upcoming International Space Station Crew Assignments

Five NASA astronauts have been assigned to upcoming spaceflights. Joe Acaba, Ricky Arnold, Nick Hague, Serena Auñón-Chancellor and Shannon Walker all have begun training for missions launching later this year and throughout 2018.

March 28, 2017
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Ivanka Trump Supports NASA Education While Her Father Seeks To Gut It

The irony in Ivanka Trump's and Betsy DeVos's push for STEM education , Washington Post

"In her introduction to the film, Ivanka Trump said that her father's administration "has expanded NASA's space exploration mission" though did not, unsurprisingly, mention that he actually proposed decreasing NASA funding and eliminating the education office. The Trump-DeVos event drew some sharp criticism from Randi Weingarten, president of the American Federation of Teachers, who said in a statement:

"Education Secretary Betsy DeVos and Ivanka Trump are feigning an interest in STEM careers with a photo op at the National Air and Space Museum while eliminating all funding for NASA's education programs. This takes chutzpah to a new level. If this administration was genuinely interested in promoting STEM programs, it would walk the walk, not just talk the talk. The next generation of astronauts, scientists, engineers and mathematicians need support, not budget cuts eliminating the very programs being promoted."

There was also no mention of the 13.5 percent in cuts Trump has proposed to the Education Department, which include the reduction or elimination of grants for teacher training, after-school programs and aid to ­low-income and first-generation college students."



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NASA Launches App for Amazon Fire TV

NASA has released its popular app for a new platform, Amazon Fire TV. This version joins previous releases of the app for iOS, Android and Apple TV devices

March 28, 2017
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NASA Unveils New Searchable Video, Audio and Imagery Library for the Public

NASA officially has launched a new resource to help the public search and download out-of-this-world images, videos and audio files by keyword and metadata searches from NASA.gov.

March 28, 2017
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Black Hole Accreting with Jet


What happens when a black hole devours a star? Many details remain unknown, but recent observations are providing new clues. In 2014, a powerful explosion was recorded by the ground-based robotic telescopes of the All Sky Automated Survey for SuperNovae (ASAS-SN) project, and followed up by instruments including NASA's Earth-orbiting Swift satellite. Computer modeling of these emissions fit a star being ripped apart by a distant supermassive black hole. The results of such a collision are portrayed in the featured artistic illustration. The black hole itself is a depicted as a tiny black dot in the center. As matter falls toward the hole, it collides with other matter and heats up. Surrounding the black hole is an accretion disk of hot matter that used to be the star, with a jet emanating from the black hole's spin axis. via NASA http://ift.tt/2opv6BN

Trump Is Not Listening To NASA or NOAA on Earth Science. Get Used To It.

The Mercers, Trump mega-donors, back group that casts doubt on climate science, Washington Post

"Rep. Lamar Smith (R-Tex.), chairman of the House science committee, who issued a subpoena to National Oceanic and Atmospheric Administration scientists over a study finding that there had been no slowdown or pause in global warming, told the group that it's time for "good science, rather than politically correct science." Steven Milloy, publisher of JunkScience.com, said the government has "perverted science." "There is no science going on in NOAA or NASA or EPA," said Milloy, who served on the Trump EPA transition team, to chuckles and applause. "There is no such thing as climate science."

US science agencies face deep cuts in Trump budget, Nature

"So far, the non-political 'career' employees at the agency are trying to remain calm and take a conciliatory approach with Trump's political appointees. "We've got four years with this administration, so we are trying to educate rather than confront," says one senior career official. Waleed Abdalati, a former chief scientist at NASA, offers similar advice to researchers who are worried about potential cuts to Earth-science programmes at NOAA and NASA. "Rumors are counterproductive," he says. "Rather than complain about what hasn't happened, we should advocate for what should happen."

Keith's note: Just remember folks, that OMB Budget Blueprint Excerpt for NASA "Provides $1.8 billion for a focused, balanced Earth science portfolio that supports the priorities of the science and applications communities, a savings of $102 million from the 2017 annualized CR level. The Budget terminates four Earth science missions (PACE, OCO-3, DSCOVR Earth-viewing instruments, and CLARREO Pathfinder) and reduces funding for Earth science research grants." This is not a budget document. Its just a snapshot in time. OMB wants to see who screams the loudest - and who doesn't scream as much. The budget that emerges in a month or two may be very different as a result. If you listen to the anti-climate change rhetoric coming out of the White House and its allied external allies and sympathetic members of Congress, it should be obvious that Earth science has a big target painted on it.



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Expedition 50 Spacewalks Prepare Station for Arrival of Commercial Crew Spacecraft


Flight Engineer Thomas Pesquet of ESA is seen floating outside the International Space Station during a spacewalk. Pesquet and Expedition 50 Commander Shane Kimbrough of NASA conducted the six-hour-and-34-minute spacewalk on March 24, 2017. A second spacewalk, by Kimbrough and NASA astronaut Peggy Whitson, is scheduled for Thursday, March 30. via NASA http://ift.tt/2nwyygv

ISS Daily Summary Report – 3/27/2017

Pressurized Mating Adapter (PMA)3 Relocation:  Yesterday, Robotics Ground Controllers utilized the Space Station Remote Manipulator System (SSRMS) to grapple and relocate PMA3 from Node3 Port to Node2 Zenith. After the relocation, they ungrappled PMA3 and maneuvered the SSRMS in position ready to provide viewing support for EVA 41 (Enhanced Processor Integrated Communications (EPIC) External Multiplexer/Demultiplexer (MDM)  Shields), scheduled for March 30th. The PMA3 relocation was needed to configure Node2 Zenith as a future visiting vehicle docking port.  Fluid Shifts Chibis Measurements, Day 1: On March 9th, the 48S subject performed the first of two days of operations in the Russian Segment conducting the Return minus 45 day Fluid Shifts operations, however, due to communication issues with Tracking and Data Relay Satellite System (TDRSS)-275, insufficient data collection occurred.  Today, the crewmember repeated the session and donned the Lower Body Negative Pressure (LBNP/Chibis) device while the operator, with ground support in Moscow, assisted in the medical monitoring. Additionally, while the subject was in the LBNP and experiencing the negative pressure (pulling the fluid feetward), the Crew Medical Officer performed Cerebral and Cochlear Fluid Pressure (CCFP) and Ultrasound measurements. Fluid Shifts is a joint NASA-Russian experiment that investigates the causes of severe and lasting physical changes to astronauts’ eyes. Because the headward fluid shift is a hypothesized contributor to these changes, reversing this fluid shift with a lower body negative pressure device is investigated as a possible intervention. Results from this study may help to develop preventative measures against lasting changes in vision and eye damage. Cool Flames Investigation (CFI) Science Runs: Last week ground teams successfully calibrated the CFI Intensified Camera, placing the CIR in a good configuration for operations.  This morning, the crew removed the Combustion Integration Rack (CIR) Alignment Guides to isolate the rack. Ground teams then initiated the science run. CFI provides new insight into the phenomenon where some types of fuels initially burn very hot, then appear to go out but continue burning at a much lower temperature with no visible flames (cool flames). Understanding cool flame combustion helps scientists develop new engines and fuels that are more efficient and less harmful to the environment. Ice Brick Conditioning: The crew ibegan conditioning of 18 of the -32° Celsius Ice Bricks, inserting them into the three Minus Eighty Degree Celsius Laboratory Freezers for ISS (MELFIs).  The bricks will be used as thermal mass in MELFI and for future sample return on SpaceX-11.  Extravehicular Mobility Unit (EMU) 3008 Discoloration: During last week’s EVA, EV1 reported yellow discoloration similar to a grass stain on his gloves and equipment. The source of the staining has been identified as coming from the Japanese Experiment Module (JEM) Exposed Facility (JEF) scuff plate.  JAXA provided information on the JEF scuff plates material.  Ground teams are investigating potential risk to crew and hardware and development of a method for removing the substance. On Sunday, the crew attempted to clean some of the affected hardware with tape and lint free wipes. Ground teams met today to discuss the result of this activity. U.S. Extravehicular Activity (EVA) #41 EPIC Shields Preparations: In preparation for this Thursday’s planned EVA, the crew performed a procedures review followed by a conference with ground teams. Topics covered included: Detailed timeline Briefing package Tool config summary Get-ahead plan Following the conference, the crew configured the required tools to be used during the EVA.  Today’s Planned Activities All activities were completed unless otherwise noted. МО-8. Concluding ops VECTOR-T. Experiment Ops Total Organic Carbon Analyzer (TOCA) Calibration Check SABL CO2 CLOSE Combustion Integrated Rack Alignment Guide Removal Integrated Rack Alignment Guide Removal Post sleep FLUID SHIFTS Charging EVA Camera D4 Battery Extravehicular Activity (EVA) Tool Configuring Inspect and reinstall EVA Eyepiece onto Shane’s EVA Camera.  If threads are damaged, additional crew time will be required prior to the EVA to configure a different camera. Body Measures Equipment Gather ISS Crew departure preparation Auxiliary Laptop Computer System Virus Definition File Update Water Recovery System Waste Water Tank Drain Termination Node 2 Zenith Centerline Berthing Camera System (CBCS) Remove Node 2 Zenith Hatch latch NOD2O2 Restow Cable reconfiguration between SM panels 228 and 229А СКПФ1, СКПФ2 Dust Collector and MRM1 ГЖТ Cleaning with Vacuum Cleaner. 48S Mesh Bag Deploy On MCC Go Re-mating Vozdukh TLM-connectors Cable reconfiguration between SM panels 228 and 229А Maintenance Closures of Vozdukh Valves Extravehicular Activity (EVA) Procedure Review Audit of HDD in SM Central Post drawer CONTENT. Experiment Ops Extravehicular Activity (EVA) Procedure Conference Surface Sampler Kit (SSK) and Microbial Air Sampler (MAS) Analysis T + 5 Extravehicular Activity (EVA) Tool Configuring Fluid Shifts Ultrasound 2 HRF Rack 1 Setup Power On From Cargo Transfer Bag MELFI Ice Brick Insert Fluid Shifts Ultrasound 2 Data Export Alternate Surface Sampler Kit (SSK) and Microbial Air Sampler (MAS) Analysis T + 5   Completed Task List Items Extravehicular Activity ExPRESS Carrier Avionics Procedure Review [Completed GMT 84] Preparations to connect the AstroPi Vis to the ISS Joint Station LAN [Completed GMT 85] Solid State Drive 1& 2 USB Stick Disconnect [Completed GMT 85] CubeSat Video Recording [Completed GMT 85] ESA Active Dosimeter Area Monitoring [Completed GMT 85] ESA PAO Message – TF1 Video Postcard [Completed GMT 85] Extravehicular Mobility Unit (EMU) Resize [Completed GMT 85] EVA Procedure review for EPIC Shields EVA [Completed GMT 85] Configure Tools and hardware for US EVA EPIC Shields [Completed GMT 85] Montreal’s 375th Birthday Video [Completed GMT 85] Ground Activities All activities were completed unless otherwise noted. Nominal System Commanding Three-Day Look Ahead: Tuesday, 03/28: Fine Motor Skills, Body Measures, EVA prep Wednesday, 03/29: Crew departure prep, Dose Tracker, EVA prep Thursday, 03/30: EVA #41 QUICK ISS Status – Environmental Control Group:   Component Status Elektron On Vozdukh Manual [СКВ] 1 – SM Air Conditioner System (“SKV1”) Off           [СКВ] 2 – SM Air Conditioner System (“SKV2”) Off Carbon Dioxide Removal Assembly (CDRA) Lab Standby Carbon Dioxide Removal Assembly (CDRA) Node 3 Operate Major Constituent Analyzer (MCA) Lab Operate Major Constituent Analyzer (MCA) Node 3 Operate Oxygen Generation Assembly […]

March 28, 2017 at 12:00AM
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SLS Charts From Broken NASA NAC Telecon

Keith's note: The NAC Human Exploration and Operations Committee is meeting today. After an hour the telcon has no functional audio so no one really knows what Bill Gerstenmaier is saying. But he posted these charts. Not sure why we need this deep space habitat, whether there is still a #JourneyToMars or a pivot to #BackToThe Moon. Why NASA is chronically unable to do a simple telecon is just baffling. I did them from a cold tent at Everest Base camp at 17,600 feet in 2009 over a BGAN satphone many times a day.



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Your hypothetical questions, answered: SpaceX prepares to refly rocket booster


Your hypothetical questions, answered: SpaceX prepares to refly rocket booster

Posted by Jason Davis

28-03-2017 6:00 CDT

Topics:

SpaceX is poised to make history this week by reflying a rocket booster that launched a payload into space last year before landing on a drone ship in the Atlantic Ocean.

It's the first attempt to demonstrate a capability the company has worked toward since its founding in 2002. If successful, the flight could mark a new milestone in the quest for what many consider to be the holy grail of affordable spaceflight: reusability.

The mission will blast a communications satellite to geostationary orbit, and the launch window currenty opens Thursday, March 30 at 6:00 p.m. EDT (22:00 UTC).

SES-10 static test fire

SpaceX

SES-10 static test fire

SpaceX test-fires the first stage of a Falcon 9 rocket on Monday, March 27, 2017. The rocket, which successfully landed on a drone ship in April 2016, is scheduled to refly on the SES-10 mission.

How big of a deal is this?

It's a very big deal.

SpaceX's entire philosophy revolves around the concept of reusability. Company CEO Elon Musk has been dreaming about reusable rockets since the company's inception 15 years ago, when there was only a Falcon LV—which later became the Falcon 1 Musk proudly displayed on the Washington, D.C. National Mall in 2003. The company's website says reusability is "the key to making human life multi-planetary" because it could lower costs to the point where sending a million colonists to Mars is a feasible plan.

SpaceX first started playing around with reusable rockets at its McGregor, Texas testing facility, using a prototype called Grasshopper. After a series of landing attempts that ended in spectacular fireballs, the company successfully stuck a booster recovery at Cape Canaveral in December 2015. The feat has since been repeated on land and at sea, but SpaceX has yet to refly one of its returned rockets.

Until now.

Where does the flight fit in terms of firsts?

Describing the achievement in terms of firsts requires a few careful qualifiers. Here goes:

This is the first time a liquid-fueled rocket booster used for an orbital flight will be reused for a second orbital flight.

We have to specify "orbital" since Blue Origin has performed this feat during suborbital flights. We also have to say "liquid-fueled" because the space shuttle solid rocket boosters were reusable. Alternatively, we could scrap "liquid-fueled" and add something about the booster landing upright, rather than splashing into the ocean under parachutes like shuttle boosters.

That makes this sound like it's not a very big deal.

No, it still is! Perhaps a better way to describe the flight is:

SpaceX is about to take the concept of reusability farther than anyone ever has.

NASA was in the business of reusable rockets during the shuttle era, from 1981 through 2011. In addition to the solid rocket boosters, the shuttle itself was reusable, including its three main engines. But the program's original reusability ambitions were never realized. Vehicle refurbishment and turnaround times were far longer than predicted, and by the end of the program, the cost of a single launch hovered around $500 million.

Blue Origin has already flown and reflown its New Shepard rocket system multiple times, but those were suborbital test flights. SpaceX is doing this on an orbital flight, with a paying customer.

How much cost savings are we talking?

We don't know, since SpaceX and this particular customer, SES, are private companies.

The list price for a Falcon 9 flight to geostationary orbit is $62 million. Actual launch costs can be higher, depending on how much ground support you require; the NASA-NOAA Jason-3 flight to low-Earth orbit, for instance, cost $82 million

SpaceX has hinted customers that don't need to throw their rockets away might eventually see 30 percent discounts. A light enough payload allows the company to add landing legs and grid fins, as well as hold back some fuel for the descent.

If you're willing to ride on a "flight-proven" rocket, as SpaceX calls it, President and COO Gwynne Shotwell said you might get another 10 percent off. 

SpaceX CRS-8 landed booster

SpaceX

SpaceX CRS-8 landed booster

Where did this particular booster come from? 

This is the recovered Falcon 9 booster from CRS-8, which launched a Dragon cargo ship to the International Space Station on April 8, 2016.

After launch, the booster made the first successful landing on the drone ship Of Course I Still Love You. Elon Musk originally wanted to refly the booster last June, but that was delayed, and a September pad explosion pushed things back even further.

In all this rocket talk, we forgot about the payload. What is it?

The payload is the SES-10 communications satellite. It's heading to geostationary orbit, and will hover above Earth at a longitude of 67 degrees West, where it will provide communications services to Latin America.

Brazil will also use the satellite for off-shore oil and gas exploration, SES said.

SES-10 satellite

SES

SES-10 satellite

So is this actually going to work?

SpaceX sure thinks so—otherwise, the company probably wouldn't be risking their customer's multimillion-dollar communications satellite in the process.

After the CRS-8 booster was recovered in 2016, SpaceX test-fired it back on the launch pad at Cape Canaveral. Next, the booster was shipped back to Texas for more tests, and a final hold-down firing on the launch pad was conducted Monday.

If everything goes well, the booster will once again land on the Of Course I Still Love You drone ship. Assuming the rocket doesn't become a museum piece after that, maybe we'll see it fly again.

 

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2017年3月27日 星期一

Burning Lots of Money Just to Recreate Apollo 8

New report: NASA spends 72 cents of every SLS dollar on overhead costs, Ars Technica

"... according to a new report published by the nonpartisan think tank Center for a New American Security, NASA has spent $19 billion on rockets, first on Ares I and V, and now on the SLS. Additionally, the agency has spent $13.9 billion on the Orion spacecraft. The agency hopes to finally fly its first crewed mission with the new vehicles in 2021. If it does so, the report estimates the agency will have spent $43 billion before that first flight, essentially a reprise of the Apollo 8 mission around the Moon.

... The new report argues that, given these high costs, NASA should turn over the construction of rockets and spacecraft to the private sector. It buttresses this argument with a remarkable claim about the "overhead" costs associated with the NASA-led programs."

Keith's note: $43 billion in one dollar bills would stretch 4,166,700 miles or 17 times the distance to the Moon. Just sayin'.



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New treasures from Juno: Jupiter dazzles during fourth close approach


New treasures from Juno: Jupiter dazzles during fourth close approach

Posted By Björn Jónsson

27-03-2017 14:00 CDT

Topics: pretty pictures, amateur image processing, Juno, Jupiter

JunoCam images can be described in one word: awesome. They are a lot more challenging to process properly than Voyager, Galileo and Cassini images, but the resulting images are every bit as spectacular as the ones from earlier spacecraft. The color, in particular, is much improved since the days of Voyager.

Here are a few images processed from the image 106 raw framelets acquired during Juno's fourth perijove orbit (third science orbit). This is the "POI: Oval BA" observation. In the three images below, the effects of global illumination have been removed. The contrast and color has been exaggerated, and small scale features sharpened, to better reveal various features and color variations.

Jupiter from Juno at Perijove #4

NASA / JPL-Caltech / SwRI / MSSS / Björn Jónsson

Jupiter from Juno at Perijove #4

This view of Jupiter was obtained by the JunoCam during Juno's 4th perijove flyby, a mere ~14,500 km above the planet. The effects of global illumination have been removed, and contrast and color have been exaggerated and small scale features sharpened to better reveal various features and color variations.

Jupiter's

NASA / JPL-Caltech / SwRI / MSSS / Björn Jónsson

Jupiter's "string of pearls" from Juno

This view of part of Jupiter's "string of pearls" near 40°S latitude was obtained by the JunoCam during Juno's 4th perijove flyby, a mere ~14,500 km above the planet. The effects of global illumination have been removed, and contrast and color have been exaggerated and small scale features sharpened to better reveal various features and color variations.

Jupiter's

NASA / JPL-Caltech / SwRI / MSSS / Björn Jónsson

Jupiter's "string of pearls" from Juno

This view of part of Jupiter's "string of pearls" near 40°S latitude was obtained by the JunoCam during Juno's 4th perijove flyby, a mere ~14,500 km above the planet. The effects of global illumination have been removed, and contrast and color have been exaggerated and small scale features sharpened to better reveal various features and color variations.

These images show an enormous amount of small scale detail. Cloud shadows and vertical relief are clearly visible at many locations. The fairly big oval visible in these images is one of the "string of pearls" ovals near latitude 40°S latitude; this is oval A1.

Here is a different version of these images with approximately true color and contrast. Small scale features have been sharpened slightly:

Jupiter from Juno at Perijove #4 (true color version)

NASA / JPL-Caltech / SwRI / MSSS / Björn Jónsson

Jupiter from Juno at Perijove #4 (true color version)
Jupiter's

NASA / JPL-Caltech / SwRI / Björn Jónsson

Jupiter's "string of pearls" from Juno (true color version)
Jupiter's

NASA / JPL-Caltech / SwRI / MSSS / Björn Jónsson

Jupiter's "string of pearls" from Juno (true color version)

All of these images were produced by using viewing geometry information from Space Integrated Control Experiment (SPICE) kernels to reproject the raw framelets to a simple cylindrical map. For the best results, I had to make corrections to the camera pointing. I then used a 3D renderer to create perspective views of an oblate spheroid, using the spacecraft's location and the camera pointing at three different points in time when JunoCam was acquiring the original framelets.

Since JunoCam has a very wide field of view (58°), these images should give a fairly good idea of what a naked eye view from Juno's location would look like. This is different from Voyager, Galileo and Cassini images, where the field of view is less than 0.5°. The images from these spacecraft are therefore more similar to what one would see through a small astronomical telescope from a distance of a few million kilometers from Jupiter.

Juno's altitude above Jupiter was only about 14,500 km when the original images were obtained. Therefore, the area covered by the images isn't particularly big. Below is a quick and dirty context view. It is based on John Rogers' Perijove 4 (PJ4) predictive map that can be seen here.

Context view for these Juno images

NASA / JPL-Caltech / SwRI / MSSS / Björn Jónsson

Context view for these Juno images

Finally, here's an animation showing all of image 106 JunoCam images acquired during Juno's 4th perijove. It was created using Juno's location and JunoCams' pointing when it was imaging Jupiter: 

Jupiter as seen by NASA's Juno spacecraft from Bjorn Jonsson on Vimeo.

 

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NASA Astronaut Jack Fischer Available for Interviews Before Space Station Mission

NASA astronaut Jack Fischer, who is making final preparations for an April 20 launch to the International Space Station, will be available for live satellite interviews from 8 to 9 a.m. EDT Tuesday, April 4.

March 27, 2017
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New Head of NASA Office of Communications Named

Jen Rae Wang Appointed to Head NASA's Office of Communications

"Jen Rae Wang has been selected by Acting Administrator Robert Lightfoot as NASA's Associate Administrator for the Office of Communications. Wang joins NASA with more than a decade of experience at the highest levels of state and federal government in public, legislative, and media affairs both domestically and internationally, strategic communications, as well as small and large-scale organizational executive leadership."



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Wang Appointed to Head NASA’s Office of Communications

Jen Rae Wang has been selected by Acting Administrator Robert Lightfoot as NASA's Associate Administrator for the Office of Communications. Wang joins NASA with more than a decade of experience at the highest levels of state and federal government in public, legislative, and media affairs both domestically and internationally, strategic communicati

March 27, 2017
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Dark Spot and Jovian ‘Galaxy’


This enhanced-color image of a mysterious dark spot on Jupiter seems to reveal a Jovian “galaxy” of swirling storms. via NASA http://ift.tt/2o23lmK

Elon Musk Will Help SWAT Team Lead By Trump's Son-in-Law

Trump taps Kushner to lead a SWAT team to fix government with business ideas, Washington Post

"President Trump plans to unveil a new White House office on Monday with sweeping authority to overhaul the federal bureaucracy ... by harvesting ideas from the business world and, potentially, privatizing some government functions. The innovation office has a particular focus on technology and data, and it is working with such titans as ... Tesla founder and chief executive Elon Musk."



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Juno just flew past Jupiter for the fifth time. What have we learned from the mission so far?


Juno just flew past Jupiter for the fifth time. What have we learned from the mission so far?

Posted by Anna Scott

27-03-2017 6:00 CDT

Topics: mission status, Juno, Jupiter

Early this morning, NASA’s Juno spacecraft performed its fourth science flyby of Jupiter, buzzing the giant planet’s cloud tops at a height of just 4,400 kilometers. 

These flybys show us amazing pictures. But recall that the Juno mission is not only about Internet fame, Instagram-glory, and a legacy of really cool space posters—it’s also helping uncover the mysteries of how the solar system formed by taking a deep look at Jupiter’s interior.

Jupiter in approximate true color during Juno perijove 4

NASA / JPL-Caltech / SwRI / MSSS / Image processing by Björn Jónsson

Jupiter in approximate true color during Juno perijove 4

This image was created using data from Juno perijove 4. It is processed in approximately true color and contrast, with small-scale features slightly sharpened. The large oval is one of the "string of pearls" near latitude 40 degrees south; this is oval A1.

At last year’s American Geophysical Union conference, I got to sit in on the data unveiling from the spacecraft’s first flyby. Highlights of the session included magnetometer readings suggesting Jupiter’s dynamo generation is closer to the surface than previously thought, and I was also delighted to find out that Jupiter, just like Earth, has relative humidity. I also learned about proton whistlers, which are what comes up when lightning goes down—or more scientifically, electromagnetic waves in the upper atmosphere generated by lightning that travels along the planet’s magnetic field lines. 

Let's unpack this.

First, the magnetometer readings: Juno’s magnetometer observes the planetary dynamo, the process responsible for a planet’s magnetic field. In short, this is due to the motion of an electrically-conducting fluid, at high temperatures and pressures in the rotating core of a planet. Mars used to have a dynamo, Earth has one, and Jupiter’s is the strongest in the solar system.

Juno’s first flyby measured the “greatest [magnetic] field strength any spacecraft has ever encountered,” greatly exceeding predictions, according to project scientist Alberto Adriani. The measurements suggest Jupiter’s dynamo is closer to the surface than previously thought. Where the dynamo generation occurs is something scientists have been unable to predict using only models, so having conclusive data is an exciting prospect. 

As for relative humidity on Jupiter, I did not get a chance to ask about a heat index on Jupiter. I will say that at the 1000-degree-Kelvin temperatures detected, sweating probably wouldn’t be your biggest concern. However, humidity is a big concern for scientists, because the amount of water detected in Jupiter’s atmosphere will tell us how much oxygen is there. This will tell us if we are right about theories on how Jupiter—and, by extension, the solar system—formed. 

The prevailing theory for gas giant formation, known as the core accretion model, says planets like Jupiter start out as small, rocky worlds that accumulate enough material to accrete a gaseous envelope. This suggests Jupiter’s chemical composition should closely mirror the Sun’s. 

But it’s not clear how the smallest particles stick together, other than the fact that our universe is full of fully-formed planets. Other theories have been proposed, like the disk instability theory, which suggests that gravitational forces bind settling nebula particles together like a collapsing balloon. However, this implies that Jupiter doesn’t have a core, which scientists find unlikely. 

In short, if we find that Jupiter is wetter than expected, we’ll have cast doubt on aspects of the core accretion model.  From Juno’s first science pass, JIRAM, the probe’s infrared mapper, couldn’t comment on the profound implications of this, but did find low relative humidity inside one of the planet’s hotspots. That was expected—the Galileo mission found the same thing—but the information can still be useful in that it gives scientists a lower limit to how dry Jupiter is. 

Seeing the data is exciting, but there are big questions left to be answered. What is Jupiter’s core made of? Are we right about solar system formation models? These are tough questions, and the answers will require lots more data, modeling, and interpretation, or in short, science. 

NASA recently said peer-reviewed papers from Juno’s first flybys are coming soon. So stay tuned—Juno has a lot more to reveal about Jupiter. 

Additional reading: 

Juno’s Science—What do we hope to learn? 

Measuring Jupiter’s water abundance by Juno: the link between interior and formation models, Helled & Lunine (2014)

Earth Proton Whistlers

 

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