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I was so excited when my sister, who works at NASA (whom I
will refer to as NasaSis), invited my Handsome Son and I to watch the
astronauts perform an Extra Vehicular Activity (EVA, aka “space walk”) this
morning. Joining the three of us was the
first sibling of our very large family, whom I’ll now call SisOne. NasaSis is extremely artistic, and among
other duties in the past, has been working with the engineers on the spacesuit
designs for a while now. She has learned
a lot about the engineering of the spacesuits, and the whys and wherefores of
space design.
SisOne, Handsome, and I met NasaSis on a very muggy but
extremely breezy morning at the Johnson
Space Center. NasaSis took us to the mission control
building, but we were too early, so we walked around the campus for a
while. She showed us “the mall,” which
is a green area with two ponds, trees, and many, many ducks who, I think, owned
the place. This is where she comes when
she needs a break from the stress of her job.
She told us she also sees deer on the LBJ campus; the campus has woods
on one side, and they just kind of wander in sometimes. She’ll walk the mall and sit under the trees
near a pond and decompress. It was a
very nice spot, and we saw lots of turtles and koi and beautiful scenery, but I
began to sweat like crazy in the humidity, so we began walking back to mission
control building. NasaSis told us about
some of the things the engineers had to deal with when designing the space
vehicles and the suits. I will try to
remember everything she said, but it was a lot to absorb, so – NasaSis, please
forgive me if I forget something or twist something! I will try to be faithful to what I heard
(some of which was hard to hear because of the wind).
First, I was unaware of some of the physiological changes
that occur in the human body in a weightless environment. I’ve heard of the
lengthening of the body as the spine decompresses, and I knew that beads of
sweat would ball up and float around in the air (yech!). I did not think, however, about the body
fluids balling up in the torso! This is
why their faces may look bloated if you see them on camera. This balling-up can
make things very uncomfortable. NasaSis has a gal friend on the current
mission, and she expects that it will take a more than a few days for her body
to adjust, though her feet will probably remain narrower than normal until she
returns to earth.
NasaSis then told us how the suits were designed. A special camera takes a 3-D picture of the
astronaut’s body and each one gets a suit designed especially for him/her. They add markings like stripes to the suits
so that mission control can tell who is doing what when an EVA is in progress –
otherwise, they all look like the Michelin man!
The layers of insulation that protects the astronaut from the cold of
space also creates problems because, as it protects them from the cold of
space, it holds in the astronauts’ body heat, and the astronauts can become
very warm. This causes sweat, which, as
mentioned before, floats. It also makes
the astronauts uncomfortable. Try
working while sweat runs down your face, and you cannot wipe it off! There is a bar inside the helmet that the
astronauts use to deal with ear pressure.
They can press their nose against it to close off a nostril and blow to
equalize their inner ear. NasaSis said
if they get good enough, they can “scratch” their nose while they are
working. All these little details that
we take for granted! (And while we’re on
the topic of irritating space behavior, try working on a project and your tools
are never where you put them! Even
though they are tethered, you can’t put anything “down” in space – things
float, so every time you need your tool you must find it again.) 
The suits must not only be ventilated for breathing, but also
for cooling. There is a special “cooling
suit” that is worn next to the skin. It
was described as “like the white long johns” but with tubing down each arm,
leg, and side, within which is filled with cooling fluid. It acts like a radiator, moving the heat from
the body and dissipating in the cooling unit.
The suits also have to protect from micro meteors, so on top of all the
layers of insulation, the outer skin has to be designed so that the body can move,
yet tough enough to handle small razor sharp pebbles traveling at 17,000 mph! One of the engineers actually bought hundreds
of razor blades and had them honed to differing sharpness levels, then someone
had to slash at the suits and record how well they stood up to the
slicing. I’m sure THAT was an exciting
job! NasaSis said that these micro
meteors hit the spacecraft and get embedded in the handles that the astronauts
hold, so the astronauts have to perform periodic “glove checks” as they work. These micro meteors can cut the gloves,
causing depressurization of the suit.
That is a very bad thing (duh!).
The astronauts must always be aware of their gloves. We actually heard mission control remind the
astronauts to perform a glove check as we were watching. Since the Kibo Module was brand new, there
hadn’t been much opportunity for the micro meteors to embed themselves yet, so
the astronaut we were watching, Fossum, I believe, proclaimed his gloves to be
“pristine” as he turned them over in front of the camera.
By this time, we arrived back at mission control. Showing our badges yet again, we were allowed
into the viewing room. It’s exactly as
you’ve seen on TV – lots of computer monitors, now bolstered by a few small TVs
and laptops. I notice a few homey touches,
like the Buzz Lightyear action figure on the “Discovery” console. It’s hard to remember that for them, this is
their office. To us, it’s a place where
men touch the sky. Buzz Lightyear
grinning at me through the window really changed my whole view of mission
control! I got a picture of Handsome
with mission control behind him, and then we settled down to listen and watch
the drama on the big screen.
In front of us was a very large display, consisting of three
screens. The leftmost screen had computer
code in various colors. The middle
screen displayed the current orbit and position of the International Space
Station (ISS). We could hear the radio
communication between the astronauts in space, and with mission control. NasaSis pointed out the grid of yellow
squares in a panel on the right side of each console. This is the communication system that allows
each discipline (Flight Director, Discovery, CapCom, Flight Surgeon, etc.) to
talk to each other or to listen on as many conversations as they would
like. The astronauts had not emerged
from the ISS yet, so NasaSis continued to educate us on more space stuff.
She recommended that we make it to Florida for a shuttle liftoff. It seems that the liftoff from a shuttle is
way more impressive than that of the
straight line rockets that NASA will be moving to after 2010. The straight rockets may also be easier on
the fuel usage. NasaSis said the
engineers put a camera in a shuttle fuel tank to see how fast the fuel was
actually used. I put my hand parallel
with the floor, up by my head, then steadily moved it down to my waist, and she
said, “Yep! Like that.”
I heard the astronauts announce that they would be popping
the thermal cover, and we watched as a hatch opened and we could see a glove
and the top of a helmet. I was surprised at how long it took for the astronaut
to exit the hatch. On TV, I always see
the astronauts when they are floating in space.
Watching the astronaut maneuver himself out of the opening, I realized
how bulky and hard to maneuver the suits actually are. The suits are pressurized, constantly wanting
to make the astronauts look like the girl from “Willie Wonka and the Chocolate
Factory” who blew up like a blueberry – arms out to the sides and torso all
inflated. The astronauts are constantly
fighting this resistance to movement, so they have to have lots of stamina. Even bending their fingers is a chore,
because of the thickness of the glove and the pressurization. As a matter of fact, there is a bar strapped
over the palm of their hand to flatten that area, to allow the astronauts to
close their hands. If they didn’t have
the bar, grabbing anything with the glove would be like trying to hold
something with a balloon in the hand! I
noticed that as the astronaut was going hand-over-hand down the bar on Kibo,
that he didn’t always bend his fingers and grab the bar, but would tuck his
fingertips behind the bar instead.
NasaSis said the layers of insulation and the glove design also prevented
the astronauts from feeling the action of the tools they were holding. For example, if they were screwing something
down, they had to know how many turns the screw should make because they would
not be able to feel when the screw was tight.
We could hear exchanges like: “Expect 9 turns.” “Nine turns, roger… Nine turns completed.” “Nine turns completed.
Roger.” They were constantly checking
and rechecking with each other. I can
only imagine how detailed their checklists would have to be, to know for each
screw how many turns are required to achieve the desired torque without
stripping the screw! That has to be a
tedious job, to proofread their job lists!
These checklists appeared to be attached to the outside of their gloves
with “rubber bands”. I’m sure they were
not just “rubber bands,” as regular ones probably would freeze and break in
space, but it seemed so anachronistic to see such high tech on display, and
there was something that looked like a shopping list tied to his arm! NasaSis and I talked briefly about the
sometimes advantage that low tech had over high tech – like how NASA expended
so much energy into designing a pen that would write in space, and the Russians
simply used a pencil!
One thing that I had noticed before but did not realize the
significance was the mirrors on the outside of the gloves. I thought it might
be some kind of display, but they are just mirrors. They are used to read the dials on the life
support system for the suit. The display for the suit is written in “mirror
language,” so as the astronaut holds up his glove, he can read the display on
his glove as if reading a paper, and so he knows the status of his suit. Another one of those little details! Details for these men and women can mean the
difference between life and death!
NasaSis says the people that she works with are so wicked
smart that she feels – how do I put this – mentally insignificant? She has learned not to talk in terms of weight. "It's MASS!" She sits in at their meetings and tries not
to say anything, but there are times when she is able to make significant
contributions, somewhat to her surprise, I am sure. Their mental
operations are so “up there” that sometimes they cannot see basic flaws which
need to be addressed. It’s pretty cool,
having a sister who makes contributions to the space program. She’s had to learn a lot in a little bit of
time. For example, all of the
acronyms! And there are acronyms inside
of acronyms! That was overwhelming her
in the beginning – the jargon of space is a language all its own. “EVA” (Extra Vehicular Activity) instead of
“spacewalk”. Strangely enough, the space
suit is known as the EMU (Extra vehicular Module Unit). NasaSis said that in the beginning she would
write “EVMU” in her notes, and people were freaking out: “What’s an EVMU? Do
you know something we should know?” She
laughs about it now, but I can only imagine the red face in the beginning!
Another shocker that I learned on my day of discovery was
exactly how dedicated these astronauts have to be. NASA has to select them not only for physical
fitness and knowledge, but these astronauts have to have the proper
psychological traits – to be able to be isolated for long periods of time
without freaking out or getting depressed, but also for dedication to their
mission. For example, the gloves are fit
tightly so they can be functional, but they can also at times rip out
fingernails! These astronauts have to
stay on mission, so they deal with the pain and keep on going. Also, the g forces put on them during takeoff
are suddenly relieved at some point heading into orbit. This physical stress – the pressured AND the
relief – are a shock to the system and can be rather rough on the men and
women. Then, there is also space
sickness, which I think we can all figure out.
These have got to be some pretty dedicated people, to chance their lives
going up and coming down, as well as their possible physical changes in
weightlessness.
As we watched the astronauts attach the Kibo module, we saw
them using a cordless drill. The
cordless drill was invented by NASA, one of many creative solutions for
problems in space that has spilled over into our daily lives. To see a list of such items, you can go here:
http://www.sti.nasa.gov/tto/shuttle.htm
On our way to lunch, we continued to discuss the spacesuit
design. NasaSis said the lunar suits
will be significantly different than the ISS suits. For example, the ISS suits have boots that
pretty much are non-moving. Astronauts
don’t use their feet much on the ISS, mostly their hands. However, on the lunar surface, they will be
walking, so the boots will be less stiff.
Also, the lunar astronauts will be bending over, looking at things and
picking stuff up, so the location of the life support devices will have to be
moved from the chest area, where they would block the downward view of the
astronaut. Also, the suits will have to
work with the astronaut’s center of gravity – the little bit of gravity on the
moon would be enough to tip an astronaut over should they be off center, even a
small amount. Handsome Son suggested a
fanny pack type of arrangement (moving it from the chest to the waist), and he
was close! NasaSis they were looking at
something like that, but the equipment is so bulky that it would prevent them
from bending over – but they are still looking at it. This is why there are SMART men and women!
As we watched the astronauts tightening screws and unfolding
what looked similar to canvas bags (some kind of crew work area for later
crews, which was actually made from the same stuff as the outer layer of their spacesuits), I could see the Earth sliding below them many miles below. While they were focused on things only inches
from their eyes, this gorgeous panorama was playing itself out below them. NasaSis said it was a shame that they had so
much to do while they were there that they didn’t really get to stop and enjoy
the incredible view.
Before we left Mission Control, a large group of Air Force
medical students arrived. They were
taking part in a tour, and we were allowed to hear their all-too-brief briefing
given by a NASA flight surgeon. He
quickly gave them an overview of the different consoles and the responsibilities
of each area, focusing, of course, on the flight surgeon desk. It takes years just to become a doctor, but
to become a space doctor takes several more years on top of that! He described some of the physical things the
doctors have to understand, such as during launch: the astronauts must sit for two or more hours
with their legs above their hearts, which increases the fluid load in the
torso, which puts additional pressure on the heart and causes increased filtration
in the kidneys. This means the bladder
may be full when ignition begins…and he didn’t go any further than that, but I
think I got the idea. He said that some
of the medical problems they’ve encountered included kidney stones and
dehydration, but not really lacerations.
I suppose the pilots are very careful about that! There are two medically trained officers on
each mission (EMT trained), so minor emergencies can be taken care of – as long
as they don’t run out of medical supplies.
Another one of those things I take for granted: that my doctor won’t run out of plasma or
blood if I’m bleeding!
Before we left, NasaSis took us to the “rock pile,” which is
where the mobile units are tested. We
were able to see “Mars” as well as the “Moon”.
The Mars simulation had large red
rocks on a sandy-to-pebbly soil, with a well defined hill. The Moon simulation was primarily rocks of
uniform size, about one inch or so, and gray, and had several craters of
different sizes. We were very careful
not to disturb anything and did not climb the hill nor descend into the craters,
as the sites had been carefully graded and designed, to give the units a full
testing of their capabilities. We got
pictures of everybody on Mars and the Moon.
I don’t know if NasaSis could hear me over the wind, but I stood in
front of the Mars hill, stuck out my hiney and said, “Look! I’m mooning
Mars!” She laughed, but I’m not sure
exactly what she was laughing at!
NasaSis said that Mars was a rocky surface, whereas the Moon
surface was like shattered glass. The
man who created the rock pile still works at NASA, and was one of the original
space suit designers. His name is so
appropriate: Joe Kosmo! NasaSis thinks
the world of him, and has learned a lot from this visionary. He had to fight for funding for some of his
ideas, and it has paid off. Would that
there were more men like him!
I am sure that I have left something out of this record, but
there was so much so fast! I love
science and science fiction, so to be able to peek into this world was very
exciting for me. I thank my sister for
inviting us, and for the brilliant men and women who make our world – and space
– more interesting!
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