Tag Archives: space

Blog

Send Uncle Warren money for a death ray… or maybe this other guy

TubeSatSo, d’you remember us mentioning the TubeSat company back in summer? Y’know, the outfit from whom you can buy a one-shot tubular satellite from for only US$8,000 the people at H+ Magazine gave them a good grilling last month, too.

Well, Warren Ellis certainly noticed, and he’s now in this month’s issue of Wired UK, begging for money with which to launch his own death ray.

So if you fancy arming the High Curmudgeon of comics with Terrible Implements of Space-borne Pain and Death, you know what to do – though I dare say he’d just as rather you bought some of his books. If, however, you’d rather fund a slightly more peaceful TubeSat deployment, you might be interested in taking a look at Drake Pool’s “Space Now” Kickstarter project.

Drake emailed earlier this week to say that he spotted the TubeSat story here at Futurismic a few months back, and it inspired him to get a project together. Not surprisingly, he can’t just rustle up eight grand out of nowhere, so he’s doing a crowdsourced microfunding drive whereby you can buy small chunks of the available payload space. And he doesn’t really mind what you do with it, though he suggests using the capability to broadcast a signal to a particular geographical section of the planet:

… in polar orbit the satellite will cover a vast amount of the earth’s surface. This means you will be able to broadcast your message to a geographically relevant region of the planet. With the power of mathematics, we can determine where the satellite will be at a given time. Think of the possibilities!

  • Say hello to your friend in Sweden!
  • Play 80s speed metal for people in Australia!
  • Send your PGP key to Spies in China!

I’m sure there is hundreds of things you can do with this. I can’t wait to see.

I’m sure playing 80s speed metal at people who aren’t expecting it qualifies as a “cruel and unusual punishment”in some countries… but hey, that’s your lookout. Drake suggests you could also send very small objects up on the satellite, so if there’s somethign lurking around the house (or even your body) that you feel deserves to go out in the ultimate blaze of glory and burn up on re-entry into the Earth’s atmosphere, dig it out and get clicking.

Whether you decide to invest or not, kudos to Drake for going that one step further than the rest of us who just thought “wow, what could you do with one of those?” and forgot about it. That’s the entreprenurial spirit, right there. 🙂

Blog

Air-gunned to orbit, plasma thrust to Mars

Here’s another prospect to add to the list of alternatives to rocketry, if only for launching inert and non-fragile stuff like fuel or water into orbit. It’s a dirty great air-gun, basically:

At the Space Investment Summit in Boston last week, Hunter described a design for a 1.1-kilometre-long gun that he says could launch 450-kilogram payloads at 6 kilometres per second. A small rocket engine would then boost the projectile into low-Earth orbit.

While humans would clearly be killed and conventional satellites crushed by the gun’s huge g-forces, it could lift robust payloads such as rocket fuel. Finding cheap ways to transport fuel into space will lower the cost of keeping the International Space Station in orbit, and in future it may be needed to supply a crewed mission to Mars.

The gun would cost $500 million to build, says Hunter, but individual launch costs would be lower than current methods. “We think it’s at least a factor of 10 cheaper than anything else,” he says.

A factor of ten is a lot of money, meaning that initial investment could probably be recouped pretty fast. But is a Jules Verne-style cannon a sexy enough idea to attract the funding? It’s limited range of cargo will probably count against it, for a start.

Meanwhile, the Ad Astra company is making strides with its prototype VASIMR plasma engine, which will hopefully be way more efficient than traditional thruster designs. Fitting one to the ISS could save literally tonnes of orbit-adjustment fuel expenditure per year, and (once the tech is scaled up) plasma engines could get a spacecraft to Mars in little over a month. Here’s a brief video if the VASIMR being tested:

It’s a bit quieter than a regular rocket, isn’t it? But still more exciting than a big air-gun… which may partly explain the enduring romance of rocketry.

Blog

Friday fly-over: Mars’ Gusev Crater

Right, it’s Friday – so have some Martian landscape porn. A guy called Doug Ellison put this together to celebrate the Spirit rover’s third birthday… counting in Martian years, natch.

Pretty impressive, given it’s made purely from data collected by the Mars Reconnaisance Orbiter and Spirit itselfas Paul McAuley says, it’ll not be long before there are versions that’ll allow you to explore the Red Planet at will, and Google Mars is getting pretty close.

And on the subject of Mars, there’s been more sightings of water ice, though it’s been somewhat overshadowed by the discovery of water on our nearer neighbour the Moon. Isn’t it high time we got to work on reducing price-to-orbit and actually going to these places in person?

Blog

Karl Schroeder: one-way tickets to Mars are a cost issue, not a risk issue

1 Comment

exploding rocketWe’ve mentioned the one-way option for Mars missions here a few times recently, the latest being in response to the Krauss op-ed in the New York Times. Earning himself his second Futurismic mention in as many days, Karl Schroeder tears down the “poisonous meme” that claims the journey to Mars is too dangerous – the reality is that it’s too expensive.

The objections all sound reasonable:  too much radiation!  Too far away!  Zero gravity is too debilitating!  Too expensive!

All of these objections are true, while at the same time they’re all wildly wrong, and largely for the same reasons.  In fact they’re all true only if getting from Earth to orbit remains as expensive as it is now.

Consider the seemingly insurmountable problem of radiation that Krauss complains of in his piece.  What’s the solution to radiation?  Shielding.  Is shielding a spacecraft impossible, or even difficult?  No, actually it’s easy.  Two meters of water around the crew cabin are enough to solve the problem of radiation in the inner solar system.  The problem is not the shielding; it’s the cost of shipping the water up to orbit that is the problem.

Ditto for, oh, let’s say zero gravity.  No astronaut should ever have to put up with zero gravity for more than a day or two at a time; the simple solution to the debilitating effects of freefall is to spin the spacecraft.  To do it in a manner comfortable to to the astronauts, you need a long boom arm, which might be heavy and awkward to lift from Earth.  The point is, the solution is easy.

Too far away?  If a space voyage is going to take months or years, there are two simple solutions:  send the ship faster, by using more propellant; or bring along more supplies.  Both of these solutions are primarily constrained by the cost of bringing stuff up from Earth.

That cost is, of course, the cost of old-school 1960s vintage chemical rocketry – $10,000 for every kilogram of stuff you want to get into orbit. Schroeder lists a number of alternatives, some of which you’ll have read about here or elsewhere: magnetic accelerators, laser propulsion launchers and so on… all with much lower to-orbit costs, all within the reach of NASA budgets – if they abandoned rocketry.

The question stands, though: given that NASA is well aware of its own budgetary problems, why is it clinging to such dated and inefficient methods? Is it for the prestige, the showiness, the rocket’s red glare? (You have to admit, a Space Shuttle launch is pretty impressive to watch… when it works.) [image by jurvetson]

But back to Schroeder:

Space is only a costly and dangerous destination if you insist on using 1960s technology to reach it.  Once NASA–or more likely the private sector–finally abandons that route, what was impossible will become easy.  —I only fear that the meme of space’s inaccessibility will prevent us from ever building the launch infrastructure that will prove it wrong; at this point, the meme looks like it’s turning into a self-fulfilling prophecy.

That would be a sad thing – to turn our backs on space, not because it was genuinely impossible, but because we’d allowed ourselves to be convinced that it was.

Blog

All day cruising down the space corridor

light_linesAnother gorgeously science-fictional concept: that of the constantly shifting gravitational corridors in the solar system that will allow for the rapid transit of spacecraft around the Sun:

Scientists in the U.S. and Germany are attempting to map the corridors to allow them to be used by spacecraft exploring the solar system. One of the researchers, Shane D. Ross from the Virginia Polytechnic Institute in the U.S. described the system as a series of low energy corridors that wind between planets and moons. Once a spacecraft entered a corridor it would “fall” along the tube, much as an object falls to Earth.

If and when there is a substantial demand for intra-system space traffic these channels in space will become like the shipping lanes of the oceans of Earth.

[from Physorg][image from TheAlieness GiselaGiardino²³ on flickr]