Recipes Formulas and Processes by G.D. Hiscox (1907 edition)
I’m lucky enough to own a 1907 first edition of Hiscox’s classic work, and love the way my copy is dis-colored and bleached by chemical splashes. Not by me, I hasten to add. But this book has for sure been used for its intended purpose! Whether the former owner, a James McQueen Jr. according to the bookplate, lived long and prospered because of its secrets, or in spite of them, is a different matter.
Secrets intended for all; the preface:
In compiling this book of formulas, recipes and processes, the Editor has endeavoured to meet primarily the practical requirements of the mechanic, the manufacturer, the artisan, and the housewife.
Some of the information is innocuous enough. You can learn how your great grandmother made blackberry jam. And Celery Clam Punch or Cherry Phosphate (with real phosphoric acid, maybe the origin of cherry coke?) sound refreshing for a summer evening.
But some of the medical cures are distinctly dodgy. We worry enough today about tanning products, but Hiscox’s cure for a tan, made from bichloride of mercury, sounds lethal. Helpfully, he shares with us that:
This is not strong enough to blister and skin the face in average cases.
Phew, good job most folk are average. Responsibly, he adds:
Do not forget that this last ingredient [the mercury compound] is a powerful poison and should be kept out of the reach of children and ignorant persons.
Folk would have taken Hiscox’s Cannabis indica based cure for corns in their stride (ouch!). And concern over the pinch of cinnabar in his nail polish would be just another case of health and safety gone mad.
But surely, even by the standards of the time, Hiscox’s idea of a light-hearted party trick must have raised some eyebrows (or literally blown them off): like ‘To take boiling lead in the mouth’, ‘Biting off red hot iron’, ‘Sparks from the finger tips’. And ‘The burning banana’ doesn’t bear thinking about.
Recipes, Formulas and Processes (1907 edition)
Some recipes were probably safe, but just sound a little icky. Like a nice pomade for sir’s hair, made from vaseline oil and beef marrow. Blue hosiery dye called for some ingredients I’ve never heard of: like 4 pounds of Guatamala and 3 pounds of Beugal Indigo; and others I have heard of: like 1 pail of urine. Hiscox also contains lots of paint and ink recipes but, disappointingly, there’s no mention of the infamous Mummy Brown.
‘Solid Alcohol’ sounds quite useful, maybe as a firelighter. I made something similar as a schoolboy, by dissolving soap in methylated spirit.
There’s nothing in Hiscox to separate the domestic from the industrial. Content is alphabetically indexed, but otherwise all mixed up. The section on glass includes industrial formulas for making different glass types and colourings in the furnace, but also includes instructions for a home-made glass grinding device.
Interestingly, Recipes, Formulas And Processes was republished through many revisions and editions into at least the 1930s. But I’m sure today there is nothing quite like it – unless we include the internet as a whole.
On another tack, it’s worth remembering that when Hiscox was published, the welfare and commercial infrastructure we take for granted today (some of us) was much less developed or non-existent. No popping down to the mall for a ready-made solution to every task. Folk just did more of their own stuff.
And should you decide to do more of your own stuff, don’t do it from Hiscox! He’s academically interesting to browse, but clearly some of his recipes and ideas are best left well alone.
Like this lime tree I snapped today. More of a trunk than a tree really. How may species do you know where you can chop off its arms and legs, take out its insides, and it still hangs in there? O.k., so no actual limes…yet.
Did you hear the story of the old empty lime tree?There was nothin' in it....
I’ve just received this photo from my wife Erin, out for a hike this afternoon in the foothills of the San Gabriel mountains north of Los Angeles.
San Gabriel foothills in May 2010 (Photo:Erin Conel Jones)
Quite a breathtaking dash of color; but doubly impressive when you consider what the same area looked like back in October last year. I blogged at the time about the largest forest fire the region had seen for decades (HERE). And when I was last over in March, saw no sign of any recovery in the flora department. Here’s a reminder of what the same (or close to) patch looked like after the fire.
Scorched Earth in the San Gabriel Mountains; October 2009 (Photo:Erin Conel Jones)
Note that in the recent picture you can still see the remains of burnt out branches amongst the new growth.
Animal life too is returning, evidenced by our – as yet unidentified – friend here. He’s hard to see because he’s doing his job well.
Lizard (Photo: Erin Conel Jones)
Now, just need to keep an eye out for the return of the mountain lions……
Hardcover: 260 pages Publisher: Allen Lane (4 Mar 2010) ISBN-10: 1846141427 ISBN-13: 978-1846141423
The search for extra-terrestrial intelligence, or SETI, is in a rut. That is Paul Davies’s message in ‘The Eerie Silence – Are we alone in the Universe’ – a thorough taking stock of the programme started by Frank Drake in 1959 to search for alien radio messages from outer space.
Davies wants a rethink from scratch, where we shake off the blinkers of anthropocentric thinking and question exactly what we should be looking for. Listening out for a direct radio message is fine, but lets extend the search to include more subtle evidence of alien legacy and the very origin of life.
ET has indeed been strangely quiet, and for Davies two rather extreme explanations for that are providing signposts to a ‘New SETI’.
Under the first option, we have to accept that life on Earth was born of a series of events so incredibly flukey they will never be repeated. Under the second, we face the chilling prospect that intelligent life pops up quite frequently, only to develop a propensity for technology fueled self-destruction.
Holding out hope for a middle way, and putting speculation over self-destructing aliens aside, Davies argues there is a raft of solid science we could be getting on with to better understand the scarcity of life. Those up for the task (and skilled enough to secure funding) will enter a field of polarised opinions and a paucity of hard evidence. The prize? – possibly the final word on the question of whether life is ubiquitous in the universe – a ‘cosmic imperative’ – or that you and I here on Earth are a one-off, somewhat lonesome, rarity.
We should still listen for radio messages, says Davies, enthusing over SETI’s groundbreaking Allen Telescope Array (ATA) of radio telescopes; but the emphasis should be on searching for new types of evidence of intelligence, both in space and closer to home – on Earth in fact.
If we can show life on Earth started independently more than once – a second genesis if you like – the fluke theory is destroyed and the prospect of life existing on the billion or so Earth-like planets in our galaxy increases immensely. Once life has started, there is pretty much universal agreement among scientists that Darwinian style evolution will, environmental factors willing, take over to produce complex life forms and probably intelligence and consciousness. Second (and third and fourth..) genesis life forms could be living alongside us today, unrecognised as a microbial ‘shadow biosphere’ – the holy grail for researchers now culturing candidate samples from Mono Lake in California. Or we might find tell-tale markers of an extinct second genesis in geological records that we have seen but incorrectly interpreted. With so many work areas highlighted as candidates for inclusion in New SETI, a problem for potential researchers could be deciding where to focus their application. Presumably Davies is taking calls.
Moving from Petri dish to telescope dish, Davies believes our pre-conceptions of ET in space are causing us to define too narrow a target there also. Any intelligent biological life, he says, will quickly transition to an intellectually superior machine form having nothing in common with Homo sapiens and little to gain from interstellar chit-chat.
Or the aliens may have launched beacons that ping data packets only once a year. Or they may have sent probes – monolith fashion – to lurk around our solar system, programmed to spring to life when we learn to think up to their level. The point is we will only detect this kind of activity if we specifically look for it.
In his most futuristic speculation, Davies envisions life evolving into a quantum computer – an extended network of energy floating through space, amusing itself solving complex mathematical doodles. The implication of course, if such ‘beings’ exist, is that we are headed in the exact same direction. How do you fancy being a node in a pan-galactic thought matrix?
Among other thought-provoking revelations, we learn the Earth has for billions of years been happily swapping rocks, possibly with primitive life aboard, with other planets in the solar system – including Mars. That makes the potential discovery of life on that planet important, but not necessarily a game-changer for SETI, as Martian and Earth life could share the same unique origin.
Davies puts SETI into historical context on a quirkier note, recounting how the mathematician Karl Gauss, as early as the turn of the 19th century, planned to signal the Martians using huge shapes cut out of trees in the Siberian forest.
There is an implicit appeal in The Eerie Silence for scientists from different disciplines to work together on SETI and astrobiology – maybe a guiding principle for New SETI? Astronomers, biologists, geologists, engineers, astro-physicists and cosmologists all have a role in the search – as do non-scientists.
That also holds true for the post-detection task-group Davies leads, set up to advise an appropriate response in the event ET finally calls. In a chapter devoted to the implications of ‘first contact’, he asks how various groups: from the media, through politicians, the military, and religious believers might react. If we receive a targeted message, we should certainly think carefully about the reply. But that we already send the occasional burst of blindly targeted radio messages into space is a positive in Davies’s book; at least it makes people think about science, humanity, and what in our culture we value. Religion, and particularly Christianity, Davies believes, will struggle to reconcile dogma with the existence of intelligent aliens.
In his wind-up, Davies keeps all options open as to the chances of a positive outcome for SETI. But on balance, hardcore enthusiasts of radio SETI in particular may well find the The Eerie Silence a bit of a downer. Likewise, those looking for evidence to support more philosophical ideas around nature favouring life, or the existence of a life principle buried in the physics and chemistry of the universe – themes Davies has arguably been more sympathetic to in previous works – will be disappointed as he rejects each in turn.
To its credit, The Eerie Silence is as much about human motivations and psychology as it is about research and radio antennae. A chatty narrative with frequent episodes of self-examination strikes chords with thoughts and feelings most of us will have had: like the need for a sense of self, and a yearning for meaning. The search for ET is very much the search for what we are, what we may become, and what ‘it’ all means. A cliched theme maybe, but well supported here with relevant facts and reasoned speculation. Davies’s talent for projecting rock-solid scientific rationalism while not (entirely) closing the door on other perspectives has produced an absorbing read.
Other posts related to astrobiology and SETI on Zoonmian
In February, I told you in this post about a competition sponsored by publishers Penguin UK together with National Science and Engineering Week, that asked YOU to suggest a message we might beam into space at the aliens. The idea stemmed from Paul Davies’s new book ‘The Eerie Silence’ .
Paul Davies
It turns out that nearly 1000 messages received from all over the world are, as of 2pm 12th March, winging their way across the cosmos in the direction of the Orion nebula, courtesy of BT’s Goonhilly Earth Station in Cornwall. This was the first day of National Science and Engineering Week UK, and included The Big Bang event at Manchester Central Conference Centre. Joining the event, astrophysicist author Davies said:
“From time to time, humans have deliberately beamed powerful messages into space to attract the attention of any cosmic company. On Friday, a big radio dish in Cornwall will do just that, conveying a selection of messages from earthlings to anyone who cares to listen. The messages will be directed towards the Orion nebula, a stellar nursery that would be an attractive location for an advanced alien community with astro-engineering prowess. It will take over 1,200 years for the messages to arrive, travelling at the speed of light, and I for one won’t be around to receive any reply. But the purpose of the exercise is not so much to establish a dialogue with ET. Rather, it is to get young people to reflect on some deep issues, such as whether or not we are alone in the vastness of space, what is mankind’s place in the universe, and why after 50 years of patient listening SETI astronomers are greeted by only an eerie silence? What is more, it is a bit of fun.”
And now the really interesting bit. These are the top 50 winning entries.
What have we said……..!
(Actually, scanning through these, I think we’re safe from invasion – malevolent or otherwise ;-))
Andrew Glester, Manchester
If you’ve been watching our television broadcasts, I’d like to apologise for everything before and after Carl Sagan’s Cosmos.
Karen Zold, Nailsea
Beautiful blue planet, teeming with life located on the edge of the Milky Way. Fantastic views of the Andromeda Galaxy and beyond into infinity. Perhaps the best location in the Universe ?1 Trillion Trillion Trillion Trillion ONO. Must be prepared to look after current resident flora and fauna
Jill Dawson, Isle of Man
My Dad has told me for 43 years I was left behind by an alien spaceship so to all my relatives out there PLEASE CALL ROUND FOR COFFEE I WOULD LOVE TO CATCH UP!!
Linda Irwin, McCall, ID, USA
We are energy of the creationist kind incarnated into carbon based bodies. We have always been here since energy is only changed, never destroyed. Who and where are you?
Martijn van vugt, Delft, Netherlands
Hilarious isn’t it? Wait till you see how we run our rock. Definitely worth the visit. Are you on MyOuterSpace, by the way?
Dennis Treleaven, London
Please get in touch and if you could confirm that the universe was not created by god it would answer a lot of arguements down here.
Robin Goos, Stockholm
Requesting interference from other species / civilizations. We could use some excitement.
Laura Pritchard, Kidlington
Probably best you don’t watch our films ET, Independence Day or Mars Attacks before making contact with us….
Natalie Smith, Bristol
Planet earth – thought it was light years ahead but recently collapsed into banking black hole, seeks super star for sharing Milky Way, Mars and universal travel.
Ernest Long, Ireland
NO MISSIONARIES PLEASE
Chris Bergoch, Los Angeles
Hello. Your work in our crop fields intrigues me. I would love to know how you do it! Also, why be so mysterious? Why not come down and say hello? We’d love to meet you and become friends!
Mrs Munro, Nottingham
Did you think YOU were alone in the universe?!
John Tingay, Sheffield
Please send us photos of your celebrities.
Andrew Brown, Canmore, Alberta
For sale or trade: Several billion tonnes of carbon dioxide. All reasonable offers considered! Must pick up, can not ship.
Tomi Vollauschek, London
Please move on. Nothing to see here.
Amaral, Rio de Janeiro
Just observe. Keep away. This is a dangerous zone. Our divine entity is called Money. The people here may even kill for their
deity. Do not try to understand.
John Moore, Poole
Help Wanted! Cleaners, caretakers and peacemakers required for extremely dirty and severely damaged planet.Honesty and integrity a must.We are a equal opportunitys’ employer, applicants of any shape or form will be considered.Blue Earth Agency or uww//earth.cos
Andrea Smith, Brighton
Can I have my frisbee back please?
Nicola, Birmingham
My name is Nicola and I am 11. Is anybody in space? Is anyone going to reply to me, because I am reallly interested in life in space.
David Risser, Chicago
We Taste Bad !
Deborah Hubbard, Pretoria
Hello, dear aliens. We tend to believe that we’re pretty bright and you’re weird, but I reckon it’s the other way around. Please pop in any time so we can find out. Come for coffee we do that rather well.
Pete Marshall, Westcliff on sea
4 4 2, whats your favoured formation?
Vicky Haining, Northampton
Hi! If there’s anyone out there, feel free to come and visit, we don’t bite! Do you?!
Helen Cooper, Loughton
You aliens have the best fashion sense, green is ‘so in’ at the moment and those huge eyes are a fabulous look!
( this binary number translates as “you are not alone”..)
Reg Hewitt, Exeter
Hello and welcome to Planet Earth. In order to help you with your invasion you now have two options. If you want to make our world a better place, choose “1″; to follow the precedent of our current leader choose “hash”.”
Gary Hall, Dagenham
Sorry to drop this on you, but we’ve kinda wrecked our planet. Any chance we could come live with you? We’ve got beer…?
Martin Smith, Brighton
Vacancies for Traffic Wardens. We are an equal opportunities employer. Any life form may apply. Reply to Human/inhuman Resources stating age (to nearest 1000 Earth years), carbon footprint and any special dietary or respiratory requirements (methane kits available).
Gordon McGuire, Wotton-Under-Edge
Hi. Could I have a 9 inch meat feast, a margherita, 2 garlic breads and a bottle of diet coke; thanks. Bye the way, is it still free delivery within 10 billion miles?
John Waite, Preston
Two thousand years ago, we had a very enlightening visit from the Creator’s Son. Has he been to visit you yet?
Sue Coggin, Hull
What should I pack?
James England, Walton-on-Thames
I’ve checked google maps but can’t find you. Where are you?
Steve Simpson, Arlington, Texas
Hello from earth! Should you seek our planet in order to find a new home because of excessive pollution on yours, go back. If you had to manipulate your craft around the space junk, that should tell you something about how we live!
Ann Barry, Usk, South Wales
What’s occurring up there? If you’re late again, dinner’s going in the dog, and I can’t deny it, that other lot don’t look too friendly from by yer.
Eric Rush, Bromley
PLANET for Sale. Water and some other resources Sun still works comes with moon. Could be used for spare parts.
Gavin Counahan, Eastbourne
OK fess up. What have you done with Elvis?
Andy Cain, Sheffield
Do you still have Neil Armstrongs golfball up there and if so can we have it back ?
Seema Kurup, Elgin
Hello! If you’re planning to visit our planet, please know you will need to remove all metal from your person, take your shoes off and submit to a full body scan, carry all liquids/gels/aerosols in clear plastic bottles no bigger than 3.4 oz, surrender all cigarette lighters and batteries, pack all jams and jellies (but pies can be carried on) …oh yes, Welcome to the Earth!
Thomas K, Abu Dhabi
MY PURPOSE OF CONTACTING YOU IS TO SEEK YOUR HELP IN TRANSFERRING THE SUM OF FIVE MILLION UNITED STATES DOLLARS (USD 5, 000,000.00) TO A TRUSTED BANK ON YOUR PLANET.
Shawn Roberts, Sydney
MAYDAY MAYDAY ,,Celestial vessel Earth,Taking on water fast! ,require immediate assistance,,over.
Austin Lewis, Normal, IL
Hello. My name is Austin Lewis, and I’m an artist. Here, artists depict things as they are, or as they seem to the artist. Sometimes we depict things that don’t exist. What is art where you come from?
Solange Thomas, London
My message will include a group of prime numbers, and a binary code that, when stacked properly, shows a picture of a man waving, our planet location in our solar system, and a strand of DNA. I think the wave will indicates we’re friendly.
Doug Barnes, Dublin
Hi guys,Come and say hello! You have already made our mistakes ages ago, come and tip us off and save us a lot more grief!
Mike Bell, Eire
Hello. Contact our eternal father, who sent his only son jesus to our planet and he will explain all.
Alice Rook, Cleveland
Greetings from the 3td planet orbiting the big Ball of Fire. (a^2 + b^2 = c^2)(y = mx + b)(V = 4/3(pi)(r^3)
Mr Kelvin Bierton, Telford
Do you have crop circles on your planet ?
Chris, Brisbane, Australia
Dear Starlings, my inconsiderate neighbours’ all night partying and littering is intolerable. Please come and take them away. I’m confident that they would prove worthy experimental subjects and would help you understand just how easily we Earthlings are able to poop on our own doorstep.
Phil Darling, Stowmarket
Hello friends. This is a warning. My race is made of many types of characters, most are fun and good. It’s the ones that arent that make it dangerous for you. Give us a miss until we learn.
Georgios Mastrogiannis, Athens
What part does love have in your life?
Suzanne Rosen, Chigwell, Essex
Greetings from the pupils of GGSK College, Chigwell, Essex. Why don’t you visit us one day – there is ample landing space for one spacecraft on the roof. Please come on Friday, when we have Channa and Puri for scool dinners. It is especially tasty.
The 50 were selected by a panel of Penguin judges together with Graham Southorn, Editor of BBC’s Sky at Night Magazine. Each will receive a copy of Paul Davies book.
Also of Interest
David Brin here discusses SETI and particularly issues around transmitting TO the aliens
Think I’ve stumbled upon what is fundamentally wrong with UK STEM policy, at least for the Maths bit. We’re not raising mathematicians correctly.
In ‘The First Men in the Moon‘, H.G. Wells shares with us how the Selenite moon people got it right – over a century ago:
“If, for example, a Selenite is destined to be a mathematician, his teachers and trainers set out at once to that end. They check any incipient disposition to other pursuits, they encourage his mathematical bias with a perfect psychological skill. His brain grows, or at least the mathematical faculties of his brain grow, and the rest of him only so much as is necessary to sustain this essential part of him. At last, save for rest and food, his one delight lies in the exercise and display of his faculty, his one interest in its application, his sole society with other specialists in his own line. His brain grows continually larger, at least so far as the portions engaging in mathematics are concerned; they bulge ever larger and seem to suck all life and vigour from the rest of his frame. His limbs shrivel, his heart and digestive organs diminish, his insect face is hidden under its bulging contours. His voice becomes a mere stridulation for the stating of formula; he seems deaf to all but properly enunciated problems. The faculty of laughter, save for the sudden discovery of some paradox, is lost to him; his deepest emotion is the evolution of a novel computation. And so he attains his end.”
In this piece for the Washington Post, movie director James Cameron gives his analysis of the NASA budget, reminds us of the inspirational importance of space exploration and, that when it comes to winning popular support for space, “rockets really do run on dreams”.
Inspired!
The inspirational power of space and rocket ships is nothing new, and we can learn from history in properly valuing the less tangible motivating, emotional, and cultural impacts of future programs.
In the 1950s and 60s – a ‘Golden Age of American Science ‘ – folk thrilled at the prospect of great wheel-shaped space stations in orbit, and conquering the cosmos through atomic power. Sputnik energised the US rocket program that led to Apollo and the space shuttle. And the space station has arrived – even if it does fall short of Clarke and Kubrick’s vision for ‘2001’.
Perhaps blinded by the blistering activity that characterised the period leading up to Apollo, it’s easy to forget that rocket ship vocabularly was a part of the popular psyche long before the space race of the cold war years.
Buck Rogers first appeared in the magazine Amazing Stories in 1928, and as a newspaper comic strip in 1929.
Buck Rogers comic from the 1940s (picture credit: lambiek.net)
The outer space exploits of Buck and his futuristic companion Wilma captivated and fired the scientific and technological imagination of a generation of young people. Some became the scientists and engineers of the Golden Age, and some, like my father-in-law, who as a schoolboy in 1940s Glendale made the copper artwork above, found themselves working at an embryonic NASA.
“Ladies and gentlemen, I have a grave announcement to make. Incredible as it may seem, both the observations of science and the evidence of our eyes lead to the inescapable assumption that those strange beings who landed in the Jersey farmlands tonight are the vanguard of an invading army from the planet Mars.”
Those words were spoken by a fictitious news reporter in Orsen Welles’s 1938 radio play ‘The War of the Worlds’ – a broadcast that probably did more than any other event in the 20th century to embed the prospect of extra-terrestrial life in the popular imagination.
Orson Welles presents ‘War of the Worlds’ on October 30th 1938
Listeners to Welles’s play are said to have run screaming into the streets, taking the Martian invasion for real. Yet that reaction, said Professor Albert Harrison from the University of California, Davis, has been overplayed and, in fact, many listeners followed much more rational courses of action. Harrison’s comments are consistent with the Royal Society’s intent that this meeting explore beyond the bounds of natural science – to consider the social, cultural, and political impacts of the search and possible discovery of extra-terrestrial life.
The Royal Society (Photo: Tim Jones)
It’s tricky to focus down 16 speakers and 14 hours of discussions, but for me everything feeds into three questions:
Is there life beyond the earth?
Is there intelligent life beyond the earth?
How might human beings react to the discovery of extra-terrestrial life?
(o.k., there’s also a significant ‘sub-plot’ around the possibility that life evolved on earth in several independent forms – more of which later.)
Echoing an early speaker, I’ll say up front that there is presently no evidence for the existence of extra-terrestrial life, intelligent or otherwise. But that doesn’t mean it isn’t out there. Sorry if that ruined the sense of chair-gripping suspense I’ve been building.
Lord Martin Rees, President of the Royal Society (photo:Sven Klinge)
Is there life beyond the earth?
Where life?
Strangely perhaps, the search for ET begins on Earth, in so far as understanding how terrestrial life came to exist and evolve tells us what to expect elsewhere.
But beyond the Earth, researchers are looking in two places :
(a) planets in our own solar system
(b) planets in orbit around other stars in our galaxy
Why life?
With evidence that physics and chemistry are uniform across the universe, the argument is that if we find life in one location, then why not in another. It’s quite convincing if said quickly.
But conscious human life appears only at the end of a road full of hurdles, and we really need to understand how challenging each stage of the process is before raising expectations of a repeat performance. When Pascale Ehrenfreund described the ubiquity of carbonaceous compounds in the universe, she did so against a history starting at the big bang, moving through the formation of chemical compounds, then on to DNA, and finally to life. The sequence goes something like:
1. The universe came into existence at the Big Bang (including time and space, energy and matter)
2. Matter condensed into galaxies of gas and stars, and elements and chemicals were produced
3. Chemicals became arranged so they were able to self-replicate and behave as ‘life’ (RNA>DNA>cell formation, or alternative chemical arrangements that fulfill the same function)
4. Simple life evolved into more complex forms through Darwinian natural selection
5. Complex life forms evolved intelligence
6. Intelligent life forms became self-aware (consciousness)
My critique of these is that (2) and (4) are uncontroversial: we directly observe elements and chemicals, including organic molecules in deep space; and stage (4) is simply the fact of Darwinian evolution. (5) – intelligence – could be considered an extension of evolution; but, for me, (6) – consciousness – is a separate deal. That’s not because I think consciousness requires supernatural intervention to make it happen, but more to highlight how little understood is the process by which matter gets to understand and act upon itself. If we’re so smart, where’s the AI – right?
Jumping back to (1) – the big bang – as the mechanism for the formation of our universe in isolation, that too is uncontroversial for many scientists. Yet, speculative concepts like the multiverse have bearing on discussions about the probability of life forming. This meeting avoided getting too far side-tracked into cosmological fundamentals and the more adventurous areas of scientific speculation. Indeed, I thought Paul Davies, author of the The Mind of God and The Goldilocks Enigma – works that major in this territory – showed great restraint.
On what life actually is, I found it hard to pin down a universally shared definition, but most include the ability to self-replicate and to behave autonomously. Other qualifying features might include complexity, the ability to grow and develop, and the presence of a nutrient-fed metabolism. I also liked Baruch Blumberg’s reference to a test that involves comparing the behaviour of live and dead chickens thrown into the air.
Astrobiology in a new Age of Wonder
Professor Steven Rose (photo:Sven Klinge)
For Blumberg, astrobiology and the search for ET represents a new Age of Wonder – driven by the Joseph Banks spirit found in Richard Holmes’s book of the same name, but enhanced through startling advances in technology. Astrobiologists are asking themselves if the commonality of biologies discovered across the globe in Banks’s time will now be reproduced at the universal scale.
The planets in our own solar system can be reached by physical probes, but so-called exoplanets orbiting distant stars (but still in our galaxy) must be detected and analysed remotely with instruments like the Kepler space telescope. This is an area where progress
Professor Charles Cockell “Biofilms not biospheres” (photo:Sven Klinge)
has been extremely rapid and rewarding since the first Jupiter type gas giant planets were discovered 15 years ago. Researchers already analysing ‘super earths’ (x10 earth mass), said Michel Mayor, were on the brink of accessing planets equivalent in size and position to Earth. Still unresolvable as discs, exoplanets are detected from the way they change the apparent brightness and quality of light from the star-planet system. When a planet passes in front, it blocks out some light, and the reduction is measured by what is effectively a giant light-meter – like Kepler. Some new instruments in the pipeline, such as Plato scheduled for 2018, will open up more than half the sky for exoplanet analysis, further increasing the chances of discovering life.
But the little things can impress most, and one of the highlights for me was Malcolm Fridlund’s slide showing a very subtle dip in a star’s brightness curve, corresponding not to a reduction due to shadowing, but to the loss of reflected light from the planet itself as it passed behind the star. That somehow brought home the sensitivity of the technique.
Dr Malcolm Fridlund (photo:Sven Klinge)
Professor Baruch Blumberg (photo:Sven Klinge)
Analysing the wavelength of light from these systems reveals chemicals in the exoplanet’s atmosphere that we can compare with chemicals that are associated with life in our own biosphere (or biofilm as Cockell would have it). For example, ozone, oxygen, methane, and water may indicate plant life. And as Pascale Ehrenfreund explained, the starting materials for carbon based life are common throughout the universe: including long carbon chains, fullerenes and PAHs (polycyclic aromatic hydrocarbons).
While there’s been a push to see earth sized planets – because we know they work I guess – larger planets are not ruled out, although it was suggested plate tectonics might limit development on larger rocky worlds. We know life can be surprisingly tough though, like the Earth-bound extremophile group chemolithotrophs, described by Charles Cockell, that can survive high temperatures, pressures, and strong saline solutions – extracting energy directly from rocks by oxidising iron.
Professor Pascale Ehrenfreund (photo:Sven Klinge)
So it was a little disappointing after all that to learn from Simon Conway Morris that conditions on Jupiter’s moon Europa may be too saline for life. Maybe I’ve watched the movie 2010 too often, but I had Europa pegged as a top contender (according to Chris McKay, Saturn’s largest moon Enceladus is now a more likely prospect).
But Morris’s main aim was to demonstrate the ubiquity of evolutionary convergence, with reference to basic life forms that had shown a tendency to independently converge on improved or even optimal designs through natural selection. This begs the question why, if life once started has little problem developing and converging across a range of environments, is the universe not teaming with life and its tell-tale transmissions (an example of the Fermi Paradox discussed later). Simon Conway Morris’s explanation is that basic life is indeed a (one off?) fluke.
Dr Catherine Cesarsky and Prof. Colin Pillinger (photo: Sven Klinge)
Chris McKay’s ‘Second Genesis’ went some way to soften the prospect of life as a total fluke, his thesis being that we might find an independently developed tree of life in our own solar system. Just finding life or its artifacts in the rocks of, say, Mars won’t do though, as we know there’s been a historic transfer of rocks (below sterilisation temperatures) between the Earth and Mars caused by ejection of material by asteroid strikes.
Professor Simon Conway Morris (photo:Sven Klinge)
Dr Christopher McKay (photo:Sven Klinge)
Indeed – we may ourselves be Martians ! (A number of Martian meteorites have been found on earth, identified by analysing the composition of trapped gas bubbles and comparing it to samples analysed on Mars. A meteorite was found on Mars by Viking, but not from Earth – although such material is almost certainly there.)
Rather, life derived from a true second genesis would have to demonstrate features in its underlying structure, or building blocks, that must have arisen independently from our own tree of life, and will certainly not be part of it.
Is there intelligent life beyond the earth?
The second day’s discussions, chaired by Jocelyn Bell-Burnell and Martin Rees, focused on the search for intelligent extra-terrestrial life, or SETI, and how human beings might react to its discovery.
Maybe it’s a little unfair to suggest anyone working in this field is an inherent optimist, but I suspect such a condition is helpful.
At the start of this post, I listed the various stages or hurdles that must be jumped on the way to life. But for Christian de Duve, opening the session, the appearance of life on Earth is simply the inevitable outcome of a chemical process; such that if the same chemistry occurs elsewhere – the same sort of life will appear.
Professor Christian de Duve (photo: Sven Klinge)
De Duve’s thesis of life as a cosmic imperative does rely on the same physical as well as chemical conditions being reproduced, but for me he didn’t adequately address the qualitative difference between the reaction of a homogenous mix of chemicals, and more complex processes such as the formation of self-reproducing entities like cells (via RNA and DNA). Assumptions around the inevitability of the switch from chemistry to ‘life chemistry’ are troubling. But maybe I just need to read De Duve’s book.
The Shadow Biosphere
Dr Paul Davies. “Eerie Silence” (photo: Tim Jones, Darkroommatter.com)
Following Chris McKay’s discussion around a ‘Second Genesis’ in our solar system, Paul Davies followed similar motives with his concept of a more Earthbound ‘Shadow Biosphere’. Davies’s research, described in his forthcoming book, The Eerie Silence, may be terrestrial, but can inform the off-world search. The Shadow Biosphere, if it exists says Davies, will comprise unconventional (and unrecognised) life forms that have appeared and developed independently.
The lifeforms may have died out and be detectable only via ancient biomarkers, or they could be “under our noses” in the form of the largely overlooked extremophiles – those bugs that thrive variously in hot, high-pressure, salty and radiated environments. Davies described ongoing research at the hot pools of Mono Lake, California, where the search is on for arsensic-based micro-organisms, where arsenic may have replaced the phosphorous found in the tree of life we already know. Shadow organisms can thus look quite ordinary (whatever that means for an extremophile) but betray themselves by subtle but fundamental differences in their basic composition – such as inclusion of arsenic, or structure – such as the ‘handedness’ of their DNA. As with Second Genesis, the work has obvious implications for our view on the specialness of life-forming processes.
And while fishing around in hot pools might lack the superficial glamour of exoplanet and space research, the results could be of equal or greater significance. Also, with potential Martian finds arguably compromised by the possibility of inter-planetary material exchanges, the discovery of alternative trees of life on Earth might provide a more robust argument for the prevalence of life in the greater universe.
Is there anybody…..out there!
The attraction of SETI, officially celebrating its 50th anniversary this year, speaks for itself. Discovering the extra-terrestrial lettuce would be nice, but we’d all rather have the salad recipe beamed in from Vega.
Director of the Carl Sagan Center for the Study of Life in the Universe, Frank Drake, has been on the case from the start, and with Director of the Center for SETI Research, Jill Tarter, has been listening for radio, and more recently laser, broadcasts since the 1960s.
To help understand what he was up against odds-wise in the search, Drake proposed his now famous equation to calculate the number of civilisations in our galaxy with which communication might be possible:
The Drake Equation (source: Wikipedia)
Scaled up calculations suggest there are likely to be ten to the power 20 Earth-like planets in the observable universe, suggesting that if the road to intelligent life is ubiquitous and mechanical (which is not a given), the outlook for detection looks positive.
However, the Fermi Paradox, based on an observation by Enrico Fermi that we don’t see any evidence of life, because it either isn’t there or habitually destroys itself, runs counter to this enthusiasm. And as Paul Davies commented, the odds represented in the Drake equation terms (for and against life) stack up exponentially. Bottom line, I think these sorts of consideration should cause us to revisit any intuitive sense we might have for the inevitability of life – especially those of us from the Sagan “billions” generation.
Dr Frank Drake (photo: Tim Jones)
Dr Jill Tarter (photo:Sven Klinge)
Apart from radio waves and laser beams, aliens might give themselves away in other ways associated with their use of advanced technologies. One such technology is the Dyson Sphere. Proposed by Freeman Dyson, the sphere would be built by advanced civilisations to completely encapsulate their star, and thereby capture or control its energy more efficiently. Such spheres would glow in the infra-red, and serious Earth-based studies have been made to look for them. I’ve previously referenced science fiction author Stephen Baxter’s use of the Dyson Sphere in his novel Time Ships (in this blog post).
Understandably perhaps, the SETI camp don’t appear to dwell on factors that might dampen enthusiasm for the cause. For example, it was pointed out that the intensity of our own incidental and accidental radio emissions into space has decreased over the years with improved efficiency and new modes of non-radiative information transfer – like fibre optics. So maybe the aliens don’t glow as brightly as we’d like. Also, any laser communications we might detect would necessarily have to be altruistically targeted by the senders with the specific purpose of communicating with alien life. Maybe they’re doing that. It’s not that I’m being negative on any of this, but rather that, all in all, I walked away from this session as unsure as I was when when it started as to how much of a long shot SETI really is.
How might human beings react to the discovery of extra-terrestrial life?
References to the likely social, cultural and political impacts of the discovery of, or contact with, extra-terrestrial life were variously touched upon by earlier speakers. In this session, I hoped we’d come to some sort of focus, and discuss scenario-based questions such as: “What would happen if Hitler’s 1936 Olympics speech was broadcast back at us?” – as happened in the film Contact. That didn’t happen, with anthropologist Kathryn Denning seeming to actively discourage the consideration of specific scenarios. I took the point that we can’t fully prepare, but still found the approach over-conservative. Anyhow, we were told there are several groups now looking into ‘post-detection issues’, and I look forward to seeing their findings.
Dr Kathryn Denning (photo:Sven Klinge)
Professor Albert Harrison (photo:Sven Klinge)
Albert Harrison’s aforementioned analysis of Orson Welles’s War of The Worlds broadcast was entertaining, and made me realise the importance of that event as a social experiment – however unintended (how many points do we have on this particular graph?). On a related topic, I was surprised at the level of disagreement amongst the academics on the question of whether aliens would be benevolent or malevolent.
Professor Ted Peters (photo:Sven Klinge)
Ted Peters presented research results on how various religious groups and atheists thought a discovery of ET would impact them personally and their ( if appropriate) religious creed.
I’m oversimplifying, but in summary: theists generally felt they could individually accommodate ET, but their orthodoxy less so; those from more deist or spiritual religions – like Buddism (which I hardly consider a religion in the same vein as the others) had few if any problems – personally or as a group. In general, it seemed to be ‘the other guy’ and his religion that would have the problem, not the person asked. Ho hum…
Interestingly, the atheists felt religious people would have more of a problem than the religious themselves reported, and related to that in questions, Paul Davies suggested the results were more suggestive of religious people not knowing enough about their own religion.
Professor Ivan Almar (photo:Sven Klinge)
The event wound up with presentations from Hungarian Academy of Science speaker Ivan Almar, and Marian Othman from the UN Office for Outer Space Affairs. Almar’s subject matter – scales – was for me a little dry and mechanical for a closing session, but prompted a lively Q&A around issues such as the representation of high-impact/low-probability events, and the use and mis-use of scale data by different groups (e.g. experts, the media).
Othman’s presentation was more of an insight into the workings of the UN committee structure, illustrated through its handling of the topic of Near Earth Objects. Her sharing of the various procedures, political considerations, and protocols provided something of a pro-forma for dealing with issues of extra-terrestrial life.
Dr Mazlan Othman (photo:Sven Klinge)
All in all, the session was notable for the way audience delegates, the critical mass of which I suspect hailed from the more natural scientist end of the spectrum (physicists, astrobiologists), engaged in discussions that necessarily fringed on speculation. Scientists rightly don’t like to speak on topics where they lack either expertise, complete data, or both of those; but the judicial placement of appropriate disclaimers led to a lively debate.
I’d like to end this post with a noble declaration to the effect that the real take-away from the meeting was that the search for ET is as much about the search for an understanding of ourselves as anything else. And while I think that’s probably true, the real thrill for me was to spend two days mixing it with a bunch of bright folk who, in these days of market focused short-termism, are still able to pursue such a worthy vision. I had great fun.
EXTRAS!
1. Listen to Jonathan Chase and his Astrobiology Rap !
Jonathan Chase provides some light entertainment
2. Hear the Mercury Theatres’s War of the Worlds radio play here.
3. Hear my interview with astrobiologist Lewis Dartnell here (in spite of the background noise, I think this is a great interview):
I’ve just discovered the University of California Santa Cruz’s website Dreambank.net; a fascinating repository of dreams that’s also a research tool.
Developed by Adam Schneider and William Domhoff in the Psychology Department, the tool’s content of over 25,000 dream reports is drawn from a variety of sources and studies, capturing the memories of individuals aged from 7 to 74.
I’m sure there’s a lot of serious and not so serious fun to be had on this site, but for now I’ve just run a basic analysis to find the proportion of total dreams including the word ‘science’ at least once.
The results:
1. Of 25222 dreams, 86 mentioned ‘science’ (0.3%)
2. The group or individual with the highest proportion of dreams referencing ‘science’ was Bay Area Girls (4-6 graders). i.e. 13 of 234 dreams = 5.6%
3. The second highest proportion was reported by male Psychologist Melvin. i.e. 5 of 128 dreams = at 3.9%
Dream search box (source: dreambank.net)
I then ran three other words that came to mind with stuff of dreams potential, and got these results expressed as the percentage of dreams in the total sample mentioning the word once or more:
– War 31%
– Sex 3.7%
– Science 0.3%
– Climate <0.1%
So what does it all mean for science? And if dreams tell us what’s really on our minds (do they?) – what are we in for?
Well, with this as a starter, I’ll leave you and the tabloids to draw your own conclusions; I’m sure there are some great headlines to be extracted. But I would say that as a whole we appear not to be losing too much sleep over science, and the future of Silicon Valley looks a lot more assured than that of the planet as a whole.
For myself I can’t remember having had any dreams specifically about science; but I’m sure I must have; so from now on I’m going to make an effort to track them. And of course if you’d like to share any of your own sciencey dreams – feel free to add them to the comments – especially if they include science, war, sex, and climate combined ;-).
Other Info
Here’s the detail for the science search. For more information on the groups and individuals, and the potential to perform more detailed statistical analysis, visit dreambank.net.
And, credit where due; I (@physicus) originally learnt of dreambank.net from a tweet by @christianbok via @rowanNS.
When Nature Materials asked if I would write a Commentary on how I saw virtual worlds impacting our lives and science in particular, I was more than happy to share my thoughts. You can access the Commentary(1) and accompanying Editorial(2) by Joerg Heber in the December edition of Nature Materials. The following earlier draft on which the commentary is based, will I hope give Zoonomian readers unfamiliar with virtual worlds a broad introduction to some of their strengths, weaknesses and future potential.
Imagine an online phenomenon that you can engage with today, but which in ten years time will be bigger than the web, run on an infrastructure that makes Google’s hardware look like a pocket calculator, and can already deliver productivity and efficiency gains running into the hundreds of thousands of dollars. You would be there for that – right?
Be it ever so humble. The author’s Zoonomian Science Centre
Well – maybe. Because despite some futuristic projections and perhaps a little wishful thinking, we are still not seeing full-on mainstream engagement with virtual worlds: the three-dimensional immersive environments where, video game style, you use a mouse and keyboard to walk and talk your personal avatar around a simulated world.
Yet recent numbers coming out of Linden Lab, owners of the dominant simulation Second Life, give pause for thought. For starters, Linden Lab say the virtual economy based on the in-world exchange of goods and services is now running at the equivalent of $500,000,000 per year. (Linden’s own income derives from virtual land sales and rentals, and virtual-real currency exchange.) Then there is the continuing enthusiasm shown for virtual worlds by big name business users like IBM, Sun and Intel – some of whom have developed their own simulations; and the host of educational and cultural institutions busily setting up their virtual shop, of which the University of Texas is the most recent and sizable example.
So what do the 70,000 or so users typically online in Second Life represent – a small entrenched community, or a portent of paradigm change in the nature of online human interaction? And what are they all doing there anyhow?
Based on my virtual wanderings, I can safely assure you that most Second Life residents are not visualizing scientific data, developing business strategies, or attending conferences and virtual universities. No – they’re mostly just having fun dressing up and forming a variety of friendships and relationships with real people projected into a fantasy setting. They’re also creating some magnificent artwork. I’m all for experiment – so good luck to them.
My own excitement about virtual worlds relates more to serious applications than fancy dress, reflecting perhaps my past life in physical and mathematical fluids modelling, or the sympathy I have as a former private pilot for flight simulation. I’m a recent convert, having discovered virtual worlds only last year while scanning for new and unusual science communication tools. Basic Second Life membership is free but, keen to establish a presence and experiment with building techniques, it wasn’t long before I’d purchased the modest plot of virtual land needed to do that. My initiation was complete when I met up with a team from Imperial College using virtual worlds for medical training – more of which later.
A visitor at a Science Comics exhibition held in June at the Zoonomian Science Centre
Yet mine is a minority interest. Even within my real-world community of science communicators, barely a handful of colleagues have avatars, and virtual worlds are only now starting to figure in the curriculum of science communication courses. Contacts in the UK museums sector likewise give the impression they are in no rush to engage – the argument being that the public are just not equipped or interested.
So what is the perception of users? Geeky at best. That the purpose of virtual relationships can be sexual (use your imagination) is a mixed blessing for Linden Lab: attracting some users and scaring others away. Recent measures taken to separate adult content should improve the balance.
What might it take then for virtual worlds to really take off? Can we expect another Facebook or Twitter-style growth event any time soon? Well, ask yourself why anyone might take the virtual leap? People engage where they perceive value, and that perception changes with perspective. The socialite or keen party animal, scientist, manager, and communicator will each focus on, understand, and value different aspects of virtual worlds.
First, there is a fundamental quality to virtual worlds that makes their use so attractive and could be the key driver for mainstream uptake. This special quality is a sense of space and, strange to say, something akin to a feeling of physical presence. That experience is enhanced by directional audio, such that you can hear footsteps behind you and voices get louder as avatars approach. Regrettably, this defining quality is also the most difficult to convey – you really have to experience it, which is worth remembering if you ever have to sell the concept. Significantly, those implementing the University of Texas Systems’s virtual university – covering 16 campuses no less – cite how important it was for part of their pitch to the sponsor Chancellors to be made in Second Life itself.
Talking points
I have been most impressed by the present and potential role for virtual worlds in education, and more generally as a platform for presentations and even full-blown conferencing. The many hundreds of educational establishments represented in Second Life, including major universities, attest to a pervasive interest in applying virtual worlds to learning. The arrival of large scale, well funded, projects like the Texas University System pilot, which has a research program for systematized knowledge capture built in, illustrates just how serious the ‘game’ of Second Life has become. From pilot studies like this will flow the best practices, methodologies and protocols on which the virtual universities of the not too distant future will operate.
For conferencing, substitution of the many experiences that make up a real-world event is unrealistic, but that still leaves scope for one-off lectures, classroom-less teaching scenarios, and those occasions where the trade-off of a virtual presence outweighs having no representation at all.
Scott Gaudi discusses life on other worlds – beamed in from Chicago’s Adler Planetarium to an event held by ‘Astronomy 2009’ Island – the official SL presence of the International Year of Astronomy 2009
A good example is the Solo09 Science Online conference, organised in August this year, that ran simultaneously in real life at the UK’s Royal Institution in London – where I was sitting – and in Second Life for anybody who couldn’t make the venue. Virtual attendees participated fully in the discussions, and one of the speakers joined from Second Life. And importantly, the cameras were set so that we could all see each other.
The events I have joined have mostly been technically flawless, although the occasional outright disaster illustrates the danger of relaxing real world conference planning standards. Bad planning of virtual world events damages not only the organiser’s reputation but, in these early days, the credibility of the concept. Third party providers like Second Nature and Rivers Run Red with their Immersive Workspaces Solution are offering services to help clients get it right first time.
In the context of public lectures, there is a unique type of speaker-audience dynamic at work in virtual worlds that I really like, whereby protocol has somehow evolved such that audience members can comment and question, via a communal text box, during the presentation itself.
It’s o.k. to talk in class….. A popular astronomy lecture at MICA
This would be pretty rude behaviour in the real world, but virtual speakers in the know seem to engage with it well, taking comments as cues to amplify audience points or elaborate on areas of the talk where there is special interest.
On the other hand, I have a real problem with the absence of any meaningful facial expression on avatars. We take expressions for granted in real life, but they deliver a lot of conscious and subconscious information that is simply lost in virtual reality. Next time you are at a real world event, make a mental note of where you are looking – it will not be the guy’s shoes. And I’m not impressed by the counter argument that expressionless anonymity makes strangers less intimidating to approach.
Private individuals and companies can hold their own virtual meetings and mini-conferences, which is a boon for geographically dispersed teams that need to work collaboratively. The benefits come through as reduced travel time, budget, and carbon footprint – with Intel claiming savings of $265,000 against one real-world meeting. Yet I suspect many traditional corporate managements are struggling to see the benefit of virtual worlds over good video-conferencing; and I do not envy anyone charged with selling virtual worlds to an unenthusiastic management.
The virtual versions of traditional collaboration aids that exist in Second Life, such as whiteboards and laser pointers, are good for highlighting features on slides and building basic flowcharts,but will disappoint those expecting the spontaneity of a flipchart. Yet workarounds that integrate ‘conventional’ two dimensional collaboration tools are possible, and we should remember that for the display of complex three dimensional objects – that can be walked around and entered – virtual worlds represent an improvement over real life. This kind of functionality is attractive to product designers, scientists, and engineers alike. A civil engineer might share a new bridge concept with a focus group, while an automotive designer might explore a vehicle prototype concept or visualise crash simulations.
In a purely commercial role, I can only envisage the most mechanical and uncontentious negotiations taking place across a virtual table; but that still leaves plenty of scope for collaborative activities including product and supply chain development. (IBM holds its most sensitive meetings behind a firewall in their own virtual world, and Linden Lab have just released a special ‘Enterprise’ version of Second Life for businesses.)
Scientific visualisations
Data visualisation and simulation are core functionalities in the virtual world where, in the scientific sphere, chemists manipulate complex molecules, climatologists visualise weather systems, and astrophysicists simulate stellar motion.
Interactive molecule at the American Chemical Association
Modeling of fundamental physical phenomena in Second Life is constrained by the limitations of the simulation’s HAVOK physics model which, designed to support the games and movie industries, is only partly faithful to the laws of physics. Some tweaking is possible, but complex simulations require that visualisations be tied in to external processing. For example, mass in Second Life is independent of material composition but increases uniformly with object size. Different materials exhibit levels of ’slipperiness’ approximating to friction – yet viscosity and buoyancy are not represented. The delays in processing large amounts of information make accurate real time simulation problematic.
3 body star simulator at MICA
Yet within limits, some impressive visualisation tools – often open source and customizable – have been produced. As ever, third party solutions specialists such as Green Phosphor are on hand to help you move data between worlds.
To explore the possibilities of data visualization for yourself, you might set up a multi-body star system simulation with the help of MICA, or get up close and personal with some carbon nanotubes at the UK National Physical Laboratories nanoscience and nanotechnology hub in the NanoLands.
Nanotube animation at NPL’s NanoLands
Public engagement
Virtual worlds are opening up new vistas in public engagement, ranging from the use of interactive but primarily educational displays and visualizations, through to immersive virtual consultations that impact real world policy-making.
A good example of the former is the National Oceanic and Atmospheric Administration’s presence in Second Life, where visitors can select weather systems from the Earth and other planets, and see them displayed on a giant walk-around globe – complete with audio commentary. While at NASA, the visitor can inspect and be photographed sitting atop a full size reproduction of a Saturn V launch vehicle.
Visualisation of Martian weather at the National Oceanic and Atmospheric Administration
My most memorable virtual experience happened on this campus, when I found myself guiding and chatting with some of the 1000 or so visitors who had appeared from all over the world for an open day. Such an assembly of individuals – with the multitude of interests, professions, and languages they represented – could only happen in virtual reality. I’ve blogged about this aspect of virtual worlds before, and you can listen to the short radio documentary I made at the time here:
That event showcased techniques for the training of medical professionals, but virtual worlds are also used for direct patient treatment. It is thought stress levels in patients facing surgery can be reduced by walking them through procedures ahead of time. And for the psychologically disturbed, virtual worlds can provide a controllable, non-threatening environment in which their condition can be monitored and improved – a technique the US military has used to gain a better understanding of combat stress.
The future
While the limited processing power of users’ computers prevents an immediate Twitter-style boom in avatar births, I firmly believe we will see huge growth in both the application and awareness of virtual worlds over the next two to five years.
As hardware costs fall and broadband becomes ubiquitous, the themes of integration and interface will dominate the technical and cultural horizons of virtual worlds.
Technically, a closer integration with communications and social media applications like Facebook, Twitter, Skype, and Google has already started; for example, I can now tweet from inside Second Life. At Second Earth, a ‘mash-up’ of Google Earth data with Second Life visualization is signposting the way ahead.
Second Earth – A mash-up of GoogleEarth with Second Life
An inevitable move to more open standards will free avatars and virtual goods to move between different virtual worlds and other media platforms. The underlying physics models will improve, as will graphics and display technology. We will control our avatars via sensors that attach to, or remotely scan, our body and face; or we might use our brainwaves directly.
Culturally, we may find our daily routine moving seamlessly between the real and virtual worlds, in a future where avatars look and move exactly like their real world counterparts. Throwing off geek status, virtual worlds will become mainstream as more scientists, teachers, engineers, business people – and even some politicians – recognize the possibilities they offer.
All of which makes now a great time to put prejudice aside, get ahead of the game, and start checking out some of the amazing creative content and ideas that await you in the virtual universe.
Update 7/7/20011 – The Zoonomian Science Centre is no longer active, but you can still contact me in Second Life as Erasmus Magic. Or or course drop me a real-life email from the blog.
Tim Jones’s name in Second Life is Erasmus Magic
References
(1) ‘Getting real about our virtual future‘ in Nature Materials 8, 919 – 921 (2009)
The Dutch Royal Academy of Arts and Science ‘Jonge Akademie’ invited me to talk about the themes covered in this paper and virtual worlds in general. Here are the slides from the event.
August 2010 – Linden’s attempt at a business only product just didn’t work for them. Interesting analysis here at Hypergridbusiness.com, including comments from IBM.
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