Tag Archives: space

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Your own satellite aloft for $8,000

TubeSatIf SpaceX are out of your budget range, and you’re not willing to wait for laser propulsion to mature to commercially viable levels, you’d be forgiven for thinking that you were bang out of affordable options for launching your own satellite into orbit.

Not so – thanks to Interorbital Systems, you can buy a TubeSat 750-gram microsatellite and launch space for it on one of the company’s Neptune rockets… for just $8,000.

Since the TubeSats are placed into self-decaying orbits 310 kilometers (192 miles) above the Earth’s surface, they do not contribute to any long-term build-up of orbital debris. After a few weeks of operation, they will safely re-enter the atmosphere and burn-up. TubeSats are designed to be orbit-friendly.  Launches are expected to begin in the fourth quarter of 2010.

[…]

Each TubeSat kit includes the satellite’s structural components, safety hardware, solar panels, batteries, power management hardware and software,  transceiver, antennas, microcomputer, and the required programming tools. With these components alone, the builder can construct a satellite that puts out enough power to be picked up on the ground by a hand-held HAM radio receiver. Simple applications include broadcasting a repeating message from orbit or programming the satellite to function as a private orbital HAM radio relay station.

Sounds pretty limited in scope, doesn’t it? But then so do many generic technology platforms, right up until the point where hackers and other inventive types start testing their limits… and $8,000 isn’t a completely unreachable investment for a small clade of geeks with a big idea, or for an organisation with less savoury motives. If nothing else, we may see some sort of orbital-broadcast pirate radio revival… [via SlashDot; image courtesy Interorbital Systems]

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Will laser propulsion beam us up to orbit?

Some lasers, yesterdayThe space geeks among you will doubtless have heard of the laser propulsion concept before, but it’s largely remained ensconced in the realms of the theoretical so far.  However, the superbly-named Leik Myrabo reckons he has cracked it, and is currently working on bringing his ideas to a commercially viable status:

Basic research experiments using high-powered lasers are underway in Brazil, with experts investigating the central physics of laser-heated airspikes and pulsed laser propulsion engines for future ultra-energetic craft.

At the Brazil-based lab, a hypersonic shock tunnel is linked to two pulsed infrared lasers with peak powers reaching the gigawatt range – the highest power laser propulsion experiments performed to date, Myrabo said.

“In the lab we’re doing full-size engine segment tests for vehicles that will revolutionize access to space,” Myrabo emphasized. “It’s real hardware. It’s real physics. We’re getting real data…and it’s not paper studies.”

“Right now, we’re chasing the data,” Myrabo said. “When you fire into the engine, it’s a real wallop. It sounds like a shotgun going off inside the lab. It’s really loud.”

The laser propulsion experiments, Myrabo added, are also relevant to launching nanosatellites (weighing 1 to 10 kilograms) and microsatellites (10 to 100 kilograms) into low Earth orbit.

Now, colour me cynical if you will, but I reckon that last throwaway point there about the microsatellites may be the the more plausible goal for this technology, and the stuff about sending passenger vehicles into suborbital space is optimistic grandstanding designed to attract attention and investment. [image by Krassy Can Do It]

Even if the researchers (who are sponsored under international collaboration between the United States Air Force Office of Scientific Research and the Brazilian Air Force) are convinced of their omega point, cheap microsat launches will at least provide an income stream while development continues. Either way, it’s good to see another option on the table for commercial space launches.

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Pluto has a posse

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Pluto and its moonsIf you’re among the body of people who decried the demotion of poor little Pluto, take heart – it (he?) may end up reinstated some time soon:

If Pluto is reinstated, it will probably be thanks to discovery rather than debate. Mark Sykes of the Planetary Science Institute in Tucson, Arizona, believes that revelations within and beyond our solar system over the coming years will make the IAU’s controversial definition of a planet untenable. “We are in the midst of a conceptual revolution,” he says. “We are shaking off the last vestiges of the mythological view of planets as special objects in the sky – and the idea that there has to be a small number of them because they’re special.”

Sykes believes that missions currently en route to Pluto and the asteroid Ceres, which orbits the sun between Mars and Jupiter, will reveal these dwarf planets as active and intricate worlds. Meanwhile, astronomers may find distant objects as large as Earth which the IAU would not define as planets.

Sykes is among those who prefer a simple and inclusive definition of planet status: if an object is big enough for its own gravity to squeeze it into a rounded shape, then call it a planet. That would make a planet of Pluto again, as well as Ceres and a growing number of other bodies.

All this debate around nomenclature just goes to point out that we’ve a lot still to learn about our own backyard – and that the pace of discovery is picking up. I’m hoping the public interest in space doesn’t fade out after the Moon landing anniversary; even if we can’t go to these places ourselves, I think it’s important for us to think and learn about the universe beyond our gravity well. [image courtesy NASA]

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Kim Stanley Robinson on why space is a bad idea… and a good idea

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Planet EarthSpace exploration tends to be a black-and-white debate, with interested parties falling into either enthusiastic advocacy or strident denouncement. But as with most things, there’s a considerable middle-ground to explore – and over at the Washington Post, Kim Stanley Robinson brings the humanist pragmatism as he argues that space exploration is a worthy goal provided it helps us become a species that doesn’t have its finger hovering perpetually over the self-destruct button:

Eventually, if things go well on Earth, we may begin to inhabit the moons and planets of the solar system more completely, with populations living their entire lives off Earth. At this stage, Mars will always loom as the best candidate for a viable second home. If we alter that planet by importing Earth’s organisms into a rehydrated Martian landscape, that would make it safer for us to live there long-term. These big possibilities, described at length in my Mars novels, will make the planet one of the best 22nd century answers to the question, “Why space?”

And later, if things are still going well on Earth — always the necessary condition — we might live throughout our solar system. This civilization would be a great thing, as a healthy Earth would have to exist at its heart. But given all we have to do first, the full flourishing of such a civilization is surely centuries away.

So why even talk about this? Because it is useful to take the long view from time to time. This is what science fiction does, and though science fiction has been bad about space, it has been good about time. Taking that long view, we no longer seem like the most sophisticated culture ever; indeed, much that we do now will look silly or even criminal in the future. The long view also reminds us that we are a species only about 100,000 years old, evolving on a planet where the average lifetime of a species is 10 million years. Unless we blow it, humans are going to be around in 1,000 years — and if we make it that far, it’s likely that we’ll last much longer than that.

So, what actions, taken today, will help our children, and theirs, and theirs? From that perspective, decarbonizing our technology and creating a sustainable civilization emerge as the overriding goals of our age. If going into space helps achieve those goals, we should go; if going into space is premature, or falls into the category of “a good idea if Earth is healthy,” it should be put on the science fiction shelf, where I hope our descendants will be free to choose it if they want it.

What do you think? Is escaping the gravity well a means to an end in itself, or should we concentrate on tidying up our own back yard before heading out into the local neighbourhood? [via BoingBoing; image courtesy NASA]