Moving up and out doesn’t eliminate all earthly concerns.
People still get sick. We have to eat. Ideas still need to get conveyed.
Obviously, private space is unlike any field before it, if for no other reason than we’re doing what, until now, only governments have been doing. The difference is that governments (in theory) provide nearly everything people in those agencies need to get by.
It’s not quite that easy for civilians.
I really don’t see any reason why it should stay that way, though. I freely admit I don’t have the business acumen to start it myself, but there are things that private space companies need.
First off, our own health insurance company, exclusive to the field. Yes, the government now hypothetically provides that, but as near as I can tell, it’s not being very well-received. In any case, it wouldn’t hurt to include other types of insurance as well, like life, renters, home owners, and car insurance.
Who doesn’t have to eat? That’s hardly exclusive to spacers, and we don’t need any special food that nobody else does, but imagine a line of food, or perhaps restaurants, aimed at us. It would be nice if spacers had a place to go, just for them, to unwind, grab dinner, and interact with other spacers. Since we’re spread out all over the world, it couldn’t be just one place, of course, but I like to think the idea has merit.
I’ve also noticed that spacers tend to have a propensity for books. I know firsthand that getting a book published is not easy, so why can’t we have our own specialized publishing agency and printing house? Granted, many books are now electronic (like ‘Out There’), but signing a reader’s tablet is a good way for the author to get slapped or at least yelled at.
Due to some…unfortunate…experiences with a certain delivery service over the holidays, the idea of a proprietary courier has crossed my mind. Having your package delivered by the same person who picks it up would simplify things, but realistically it would also make the delivery a bit more expensive. On the other hand, the extra cost may be worth it.
Will any of the above happen? Well, maybe. Ultimately, I guess if enough of us see the need for any or all of them, it’ll happen. I think that in time the need will become apparent to all of us.
If you have any ideas I haven’t thought of for spacer support, I’d love to hear them.
I’m not fond of cliches, for the simple reason that they’re cliches. I’ve seen 41 New Years Days now, and for several years, that’s exactly how I’ve come to see them – as cliches.
Years come, years go.
What really matters is what happens during those years, and 2013 was a rather good one for Photos to Space.
Our presence seems to be getting more notice. The concept of the virtual space trip is gaining popularity.
We also saw the publication of our first e-book, ‘Out There’. It’s off to a good start and, if all goes well, may even see hardcopy publication before too long.
In the meantime, we’ve begun the research and contact we’ll need for our next book. If our plan holds up to reality, that may be available as well by the end of 2014.
Also, though I can’t get too specific right now, we’re exploring some other opportunities and potential partnerships that might make the future that much more enjoyable for everyone we work with.
Other than that, 2014 will see continued photo flights, just as they’ve done for some time now.
I suspect that there will be more going on in the next 12 months that we simply don’t know about yet. Maybe some of it will happen within Photos to Space, but it’s also possible that we could hear about more scientific discoveries and advancements in private space.
Obviously we want Photos to Space to keep growing, but we also enjoy watching other private space companies succeed too. Private space seems unusual that way – there seems to be more cooperation between outfits than competition.
Given that, we’d like to hear how this last year has gone for you (and your company, if applicable) and what you’re expecting from 2014.
At other points in the past, I was 20, 30, and then 40.
10 and 20 were pretty nondescript, but then 30 happened and I started to notice a few mild but annoying pains and the occasional odd sound in a few joints. 40 just saw them becoming more frequent and added the intermittent need for a cane on longer walks, like around a grocery store.
I also found I’ve started thinking often about the things I’d like to do still, but haven’t.
Most things don’t stay on that list for long, after a day or two they lose their importance. However, one thing remains constant.
I want to see the Aurora Borealis, the Northern Lights, firsthand.
Note that this one “Bucket List” item is completely natural and has nothing to do with anything technological or man-made. There is more to life than keyboards and rockets, and modern life makes it easy to forget that.
I guess I could go into some long-winded explanation of what the Auroras are or how they happen, but I’m not going to, not this time. All I will say on that end is that they’re visible near both polar regions.
Sometimes, when I have time to sit and think, after all the work is done for a given day, I imagine what it will be like when the day comes I get to go see them.
So what scenario comes to mind?
A road trip in an RV (probably rented), somewhere around Montana, or maybe even Alaska. There would be 3 or 4 of us, if all went the way I’d like: Joe, a friend of his (possibly), Vicky, and me. We’d park the RV for the night somewhere in a remote area, away from any city. We’d have a great dinner before dusk and then set the lawn chairs out. Let’s be real, though, the cats would be with us but would have to stay in the RV.
Once the chairs were in place and arranged to face the right direction, we’d just sit and wait. Joe doesn’t drink (very wisely, I might add), and I don’t know about his friend, but I’d like to enjoy a glass of wine while the show went on, and Vicky probably would too.
At that point, I like to think that the conversation would stop. It would be time to watch and listen to the silence, not to waste the spectacle with a lot of talk.
I guess you could say that it would probably be a spiritual experience.
Now, this isn’t meant to be a morbid post in any way, but we do all have things we’d like to do while we’re still around.
What is it that you want to do? Please, leave a comment on our Facebook page telling us what’s on your “Bucket List”.
The first step in any endeavor is thinking (and believing) that it can be done. Without that, the attempt is doomed before it even starts.
In every major advancement, there is always a group that insists that whatever is being tried is “impossible”. The people that take that stance are so based in conventional thinking that they become convinced that things can’t change and will stay as they are forever. If left to them, none of us would ever get anywhere. In fact, we’d probably still be working on creating fire or the first wheel.
Fortunately, there are those who disregard that way of thinking in favor of knowing that impossibility simply means that not being able to do something today doesn’t mean we won’t be able to tomorrow.
That’s one of the greatest things about kids. In many cases, they’ve not yet been introduced to large-scale limitations and often think they can do anything.
Don’t believe me? Ever rigged a bedsheet into a cape and jumped off something, intending to fly?
One particular 6-year-old has taken it even further.
When Connor Johnson caught wind that our lovely, forward-thinking Congress had ruled to cut funding to NASA (again), he quickly realized that just didn’t sit well with him. His first impulse was to donate his life savings to NASA. Upon talking with his parents, though, he came to understand that $10.41 won’t get very far.
Not one to be deterred by that, he decided to simply take another route and start a petition with the intent of getting funds back where they belong – science and exploration.
So is it working?
His efforts are gaining traction on Facebook, apparently to the point of getting some rather high-profile attention.
A few days ago, Connor received a supportive and congratulatory phone call from Gene Cernan. If the name doesn’t sound familiar, don’t worry. He’s just the last person to have walked on the Moon, that’s all. No big deal.
Ok, ok…enough sarcasm. At least for that paragraph.
So why is Connor so determined? Since he was 3, literally half of his life, he’s wanted to be an astronaut, a goal that Gene was more than supportive of. Also, with space once again gaining popularity, Connor’s chances of venturing off-world are increasing rapidly.
In other words, optimism pays. If it didn’t, we’d never have gotten past Apollo 1.
Winter is peeking into the forecast in the Northern Hemisphere and that means cold, snow and warm friends and family. With the holiday season now upon us, the Carnival of Space continues giving amazing stories for your perusal. It’s time to curl up under a toasty blanket with nice warm beverage and your favorite electronic reading device. Off to the Carnival!
We start this week with an article about some amazing discoveries from the Chandra X-ray telescope:
Circinus X-1 had been a puzzle to X-ray astronomers almost from the moment of its discovery.
Chandra has been a busy craft here lately. Urban Astronomer takes a look at the different look Chandra gives us of exoplanets:
NASA’s Chandra X-ray telescope has been looking at its first exoplanet and found that the planet appeared three times in X-ray than when viewed in optical light.
The Next Big Future has a trio of articles for this week, starting with a look at Hubble:
Using the powerful eye of NASA’s Hubble Space Telescope, two teams of scientists have found faint signatures of water in the atmospheres of five distant planets. The presence of atmospheric water was reported previously on a few exoplanets orbiting stars beyond our solar system, but this is the first study to conclusively measure and compare the profiles and intensities of these signatures on multiple worlds.
Next they look at how SpaceX is preparing to test some new hardware concepts they are working on:
SpaceX plans to begin testing components of a methane-fueled engine called Raptor at the Stennis Space Center in Mississippi early 2014. SpaceX will perform these tests at Stennis’ E-2 test facility, which will require an upgrade to accommodate the full Raptor engine – a closed-loop methane-oxygen concept SpaceX is working on for missions to deep space. The upgrades would be funded by SpaceX, NASA and the Mississippi Development Authority. SpaceX’s Raptor engine is designed to generate more than 661,000 pounds of thrust in a vacuum. The current Raptor concept “is a highly reusable methane staged-combustion engine that will power the next generation of SpaceX launch vehicles designed for the exploration and colonization of Mars,” Shanklin said. “The Raptor engine currently in development is the first in what we expect to be a family of engines.”
They wrap up their article sweep with a look at SpaceX’s latest successful launch:
Space Exploration Technologies (SpaceX) successfully completed its first geostationary transfer mission, delivering the SES-8 satellite to its targeted 295 x 80,000 km orbit. Falcon 9 executed a picture-perfect flight, meeting 100% of mission objectives. Falcon 9 lifted off from Space Launch Complex 40 (SLC-40) at 5:41 PM Eastern Time. Approximately 185 seconds into flight, Falcon 9’s second stage’s single Merlin vacuum engine ignited to begin a five minute, 20 second burn that delivered the SES-8 satellite into its parking orbit. Eighteen minutes after injection into the parking orbit, the second stage engine relit for just over one minute to carry the SES-8 satellite to its final geostationary transfer orbit. The restart of the Falcon 9 second stage is a requirement for all geostationary transfer missions.
Photos to Space Brings us a pair of articles on life in space. The first looks at music and the role sound plays in space. The second takes a look at how to create gravity to help astronauts stay safe.
In space no one can hear you scream. But is that because it would be drowned out by the music of space? Sounds the Universe makes are the topic of this blog entry by Steve Shurtleff.
Space is a great place to work, except for the physiological changes. What ways can we reduce the difficulties that astronauts face? This article takes a fascinating look at spinning for gravity.
Speaking of gravity, Universe Today has a great article on research being done on the quantum level. Could this to a better understanding of what makes gravity work?
Julian Sonner, a senior postdoctoral researcher at the Massachusetts Institute of Technology, led research showing that when two of these quarks are created, string theory creates a wormhole linking the quarks.
That’s it for this week. We hope you enjoyed the reading. Remember the Carnival of Space is a great way to stay up to date with what is happening in Space and here on Earth. Be sure to support the blogs and websites that bring the Carnival to you each week.
The truly great thing about the ISS is the value to science. I doubt anyone would debate that.
However, the wost thing about it, from a crew standpoint, is that it’s in space. Then again, it wouldn’t be the ISS if it wasn’t.
The reason? It’s difficult to control your movement, let alone work, in the absence of gravity. Remember, though, that lack of gravity is crucial to some of the experiments that are performed there.
Still, zero gravity is a bit rough on the personnel in the long run. Returning astronauts and cosmonauts invariably lose muscle mass and physical strength on long missions.
So how could it be made more comfortable?
Simple, at least in theory. Find a way to simulate gravity while in orbit.
How could this be done?
A constantly rotating module would do exactly that, though it may not provide the same amount of gravity we have on Earth (1 G).
Imagine being inside a large spinning drum. You’d feel yourself being pulled towards the outer wall, which would appear to you to have a curving floor. Some of the systems inside it, especially plumbing, would have to be self-contained, but it would work.
But wait! I know what you’re thinking…what about Newton’s First Law?
Every action has an equal and opposite reaction, right?
If one part of the station began to spin, the rest of the station would begin to spin in the opposite direction. The ISS isn’t designed to do that, and would most likely be torn apart if that happened.
Fortunately, again in theory, this is easy to overcome. A drum or flywheel, using the same axis and rotating in the opposite direction as the drum, would cancel out the torque and allow for safe operation.
In fact, it’s simple enough an idea that Bigelow Aerospace is actually developing a module call BEAM (Bigelow Expandable Activity MOdule) to do exactly that. While not terribly large, it could allow for things like easier sleep, eating, and exercise for the astronauts in orbit. Imagine being able to someday go into a real kitchen and cook something in space, or go for a jog!
So if you were designing such a module, what would it look like? How big would it be and what would you put in it?
Some of you know me outside of Photos to Space, and some of you have even known me for many years now. If you’ve spent more than 10 minutes with me, you probably know of my enjoyment of several different genres of music, especially (and above all else) that of Pink Floyd.
In some circles, Pink Floyd is considered part of a sub-genre called “Space Rock”, which is a style that tends to have a futuristic sound and, in some cases, lyrics about astronomy and/or science fiction. Other groups thought to be in the same category are The Verve and Muse, amongst others.
But as I lean towards Floyd, and they’re likely the best known of the groups listed above, what are some examples of the music within the genre?
‘Astronomy Domine’ is a well-known example, from the album ‘The Piper at the Gates of Dawn’, releaed in 1967, which also included ‘Interstellar Overdrive’. Their next album, ‘A Saucerful of Secrets’, contained the song ‘Set the Controls for the Heart of the Sun’.
At this point, though, I must say this: I can write about this until my face falls off, but as this is about something that can’t be completely conveyed or explained in a blog post, it’s a good idea for you to find a way to listen to at least some of these examples to find out about it firsthand.
I mean, would you try to teach someone to drive without putting them behind the wheel? Some things must be experienced to be understood.
The beautiful part of music, though, is that it’s not exclusively man-made. The Universe itself has been found to make some rather interesting music of its own. Scientists have found ways to interpret things like planetary magnetic fields and radiation emissions into audible sounds.
You might find, though, if you listen to both the man-made and the natural music of the universe, that each brings the other to mind. Ultimately, music is made of resonant sounds that move in regular patterns, which is common to both forms.
This also explains why some “music” is really just noise (random, dissonant, annoying, irrational, and sometimes painful to hear).
But now that we know the Universe sings, it’s important that we listen.
I worked in IT for 15 years or so. A lot of that time was enjoyable, but frankly, not all of it.
In the end, though, it was worth it. Strangely, though the money was more than adequate, it was during this time that I found I really didn’t care for “stuff”. If it’s not useful and practical, odds are that I don’t keep it.
It makes sense, then, that when Joe and I wrote Out There, we did so specifically with the intent of it being both useful and practical. Stuff almost always goes away – knowledge sticks with you.
With Christmas coming up, we like to think that it being useful and practical are the reasons it makes for a great gift.
‘Out There’ is not some silly video game that will be forgotten in 2 or 3 weeks. It’s certainly not another ridiculous tie that won’t get worn either.
What it is, though, is something that draws the reader in. It won’t explain everything, but what it does explain is enough to instill curiosity. It creates the desire to learn more. Try getting that result with a tasteless, tacky, ugly sweater or a pair of monster feet slippers.
But what if those you’re buying gifts for have no interest in space? Well, in that case, ‘Out There’ is a great option! The book is designed to instill that desire in new space enthusiasts as well as offer insights to the space buff.
So where can you get this wonderful tome?
http://www.outtherethebook.com/ contains links to Amazon, Barnes & Noble, and iTunes, all of which offer ‘Out There’ for less than $5.00.
If it helps, consider it as giving someone a dream.
C/2012 S1, more commonly known as the comet ISON, will achieve perihelion on November 28th, 2013. At its closest, ISON will be only 724,000 miles (1,165,000 km) above the surface of the Sun.
Initially thought to have a hyperbolic orbit, ISON now appears to follow an elliptical orbit, achieving perihelion every 400,864.54 years.
So when will it be closest to Earth?
Assuming the Sun’s gravity doesn’t pull it in or tear it apart, ISON will pass us at a distance of 39.9 million miles (64,210,000 km) on December 26th of this year. However, Earth won’t cross the comet’s orbit until mid-January 2014, well after ISON has moved on.
Although unlikely as we won’t be passing through the tail, there is a chance that we may see an increase in meteor activity due to ISON’s passing.
As of November 25th, ISON is most likely to be visible to the naked eye near Mercury. It will probably be at its brightest during the close solar pass on the 28th, though scientists are not yet sure that it will survive the encounter.
In the Northern Hemisphere, the best placement for viewing will be from mid-December 2013 until early January 2014, when it will appear to pass within 2º of Polaris.
Does this mean you should make an effort to catch a glimpse? Absolutely.
After all, how often do celestial wonders come to us?
Earth said goodbye to another of the Great Ones with the loss of Alexander Serebrov on November 12th, 2013.
An experienced cosmonaut with over a year spent in space, Serebrov passed away at his home in Moscow at the age of 69.
Though the 2 missions to Salyut 7 were cut short with various problems, his flights to Mir were more successful and included the demonstration of the IKAR, a device used to maneuver about outside a spacecraft.
Serebrov retired from the cosmonaut ranks in 1995 to serve as a spaceflight advisor to Boris Yeltsin. The recipient of an impressive list of awards, he leaves behind a wife and one child.
But as always, this is not the end. As with all explorers, his spirit will continue making new discoveries.