Hard Drop Milestone: 100 Goodreads ratings!

Hard Drop, the first title in the soon-to-be-expanded series about Tyco Hale and the OTL, has reached a major milestone: as of today, it has been rated 100 times on Goodreads.

It is a proud and humbling moment, and a good time to say thank you to everyone who has read the book since it was published almost two years ago: so, thank you to all, and I am looking forward to continuing the story shortly with the next novel, After the Storm!

In the meantime, Hard Drop can be found exclusively on Amazon.

Battlefield Science: Instant Wound Clotting

In tech and medicine news today, a new solution for stopping bullet wounds on the battlefield has been announced: XStat, a rapidly expanding sponge that fills the wound and stops bleeding, could stop bleeding, accelerate healing, and save lives on the battlefield.

This is only the latest in a series of recent battlefield innovations which are accelerating the advent of futuristic battlefield scenarios, from AI to Virtual Reality Overlays to killer robots and mechanization. But of all of those updates, this is the first I’ve seen which creates the opportunity to save lives – instead of providing more efficient means of taking them.

Why SciFi Matters (#1): Bringing Science Home

Statistics are tricky things, in particular statistics based on survey interpretations, and without meaning to jump too hard onto this bandwagon, I have to admit I was floored and embarrassed by the recent finding that suggests 25% of Americans think the Sun revolves around the Earth.

This is pathetic, not just because it suggests that a quarter of the country is scientifically stuck in the time of Galileo (or before it), but also because of the sheer, willful ignorance that is required to support this view. You would literally have to be blind to avoid the various depictions of our solar system with the sun at its center these days. You would have to studiously avoid all manner of educational websites, textbooks, science texts, or even cartoon illustrations to believe otherwise.

On the one hand, I want to believe this was confusion, a rigged survey, a wording issue, but even that is hard to defend, because this isn’t a tricky question (not something like ‘How many moons does Saturn have?’ or ‘Why is Pluto not considered a planet?’). This is a basic, fundamental concept, a logical extension of gravity, and a building block for vital, larger ideas such as galaxies, space exploration, and the potential for life on other planets. It is perhaps the fundamental relationship that dictates how we view the universe and our place in it. And 25% of Americans, a country that likes to consider itself at the forefront of research and development (although we have, for essentially our entire existence, imported science and tech advancement instead of growing it at home), have this basic, critical concept embarrassingly wrong. In other words, as far as space is concerned, they don’t even make it past page 1.

Even worse, despite the checkered history of scientific concepts in media (from Journey to the Center of the Earth to Armageddon to The Core to 2012, with dozens of issues in between), this is not a question it has gotten wrong. Anyone who has watched Danny Boyle’s 2/3 brilliant movie Sunshine will not be in any doubt as to where the sun belongs in our system. Nor do any of the planets in Halo, or Star Wars, or Star Trek (as far as I know) have suns revolving around them. Even Doctor Who, a show often noted for its fantastical elements or departures from scientific accuracy, does not violate this principle.

I suspect this phenomenon is a growing one, in America in particular, and is a function of a whole generation of students who have managed to pick up only a modicum of science, perhaps even actively avoiding it in their university studies, and have then coasted on into the warm embrace of sitcoms and Sportscenter (not that there is anything particularly wrong with either, but you’re not going to hear about gravity or space in a meaningful way on them).

And yet, this is exactly why science fiction matters: because it allows people who would never otherwise consider scientific principles to encounter, absorb, and digest them. And willingly, at that! Granted, scifi is not always accurate (Sunshine has a whole host of problems, as do all of the above-mentioned films), but in general, the more extravagant the departure from reality, the more likely the audience leaves the theater googling ‘Can the sun really go out?’ (or if phasers are technologically possible, or lightsabers, or sonic screwdrivers). And that, in itself, is no bad thing.

In short: science matters, basic scientific facts matter, and scientific advancement matters – for us, for how we see ourselves, for how we approach our world, and yes, for our long-term survival potential. However, the rise (or persistence) of willful, apathetic ignorance creates a real barrier to social advancement. Science fiction offers a very powerful tool for smashing through that barrier, and we should embrace it as such.

Taking the Fiction out of SciFi: Potentially Habitable Super-Earths are ‘Plentiful’

Not long ago now, there was great excitement when we began to discover signs of potentially Earth-like planets in the theoretically habitable zones around their stars. A number of first followed each other in quick succession, each both more impressive and more fanciful than the last, each revising our estimation on the likelihood of life elsewhere in the Universe.

The trend is only continuing: recent discoveries suggest not only that potentially habitable planets exist in a number of places, but that they may in fact be “plentiful.” Thus, little by little, the odds are improving for the potential of life out there, which, to a degree, is an exciting thing (as long as you ignore the corollary implications for threats, either via other life or in terms of extinction barriers, as has been discussed at length elsewhere).

But perhaps most interesting of all of this is that it’s now very clear that we have been, at best, a curious bystander shining a narrow beam around a very large and dark room: we have barely begun to understand the limits of what surrounds us, or the things which we may encounter there. With each improvement in technology, we discover more, see farther, deeper, or measure better, and so it seems only inevitable that, in the very near future, the odds of life will improve again.

 

Things that are surprisingly SciFi (but don’t get credit for it) Part 4: Recycling

The 1960s – and 2001 – made a strong case for future materials and space age manufacturing, what with their gleaming grey, smooth megastructures and match-cut-level sleek designs. Manufacturing, then, was the future – the ability to take organic, wood, oil, and metal inputs and come out with a self-evidently artificial, unnaturally aerodynamic, custom-built (and single-purpose) products.
This, of course, was the appeal of the space age: that we could make anything we needed to, cheaply and to order, and that we should feel no shame about waste as a result.
But plastics, at least the first generation, were not limitless: they were brittle, they were inflexible, they were very susceptible to heat or cold, and they did not decompose productively, once they had failed in their primary (and only) use.
Recycling is the unsexy child of that first wave of innovation; the undesired progeny of the excesses of synthetics production. Recycling was (and in the US, generally speaking remains) the unwanted, uncool patch job on the torn jeans, the obvious darning on the dress – it was, at best, an acknowledgment of scarcity. At worst, it was an expensive, inefficient method for pointing out how imperfect and unsustainable the space age really was.
But recycling is underrated.
Even now, recycling does not solve the issue of limited resources completely (indeed, it is likely that nothing can), but it re-awakens the potential in these items, and points the way forwards for material mining and usage. Recycling is not universally cheaper than mining new materials, but it generally does require less expenditure of energy to repurpose a material already converted into plastic, or aluminum, or other alloy, than it does to produce a fresh batch. Both through advancement of technology and through the accelerating scarcity of key materials, the recycling process has come a long way since its days as the lead nerd in the after-school specials.
And, dare I say it, recycling is pretty damn SciFi.
No, really. Consider the simple case of a spaceship made of single-use plastic and metal and sent to the stars to seek a new home. Sleek and sexy? Certainly, but also, almost certainly doomed to failure. Once broken, individual pieces of the vessel would be hard or impossible to replace, and would be dead weight once broken. Carrying spare parts would be theoretically possible, but between the need to use the space for food and life-support machinery, and the prohibitive cost of excess weight during lift-off, having significant stock of duplicates would essentially be a non-starter.
Only recycling – by which I mean the modern process of recycling, including separation, refinement, and production of new material – would allow such broken items to be used again.
And think past the flight itself: once landed on a foreign moon, settlers would have little use for their former cargo bays, thrusters, or even most navigation equipment (assuming, of course, this colonization is a one-way trip). Stripping material from the spacecraft and bending or welding it into place might be a temporary solution, but in the long term, the creation of a stable, inhabitable colony would require more stable building materials. As a result, a colonization ship would need to include a recycling unit as a core piece of equipment, both for mid-flight maintenance and in order to reuse the components of its spaceflight for the purpose of colonization.
Recycling isn’t flawless, it’s not cheap in terms of energy expended, and it may be a stopgap measure for a runaway consumerist society, but it is very SciFi.

Old Fool’s Errand: On-trend and on point.

If you haven’t had the chance to check out Old Fool’s Errand, my short story about a crotchety failed astronaut latching on to a second chance at the stars – and a one-way trip to Mars, you may want to take a look, as things are getting pretty real:

Valentina Tereshkova, the first woman in space, is now back to take a shot at being the first person on a foreign planet.

Now, to be clear, I am not by any stretch of the imagination calling Tereshkova a failed astronaut – far from it! – but it’s another, exciting chapter in the Mars saga, and another step towards a real-life Old Fool’s Errand.

NASA’s 3D Printed Rocketry – Just Really Cool

Meanwhile, in the realm of real science, NASA has taken advantage of 3D Printing (not the prosumer/hobbyist kind, mind you!) to develop and test new rocket parts. This is exciting for the acceleration it brings to the innovation cycle and the promise it has to lower the costs of rocket-building in future. It’s true that this is still an early-stage application, but it represents a sea change in the cost model and a potential further democratization of the spaceflight process. In other words, NASA’s 3D printing initiative has the promise to make rocket-building cheaper, technological development faster, and production more readily scalable than would be possible otherwise.

Additionally, of course, it brings AutoCAD that much closer to cool, which is actually pretty important. Hell, if this had been happening while I was in high school I might have become an engineer.