http://edge.org/q2007/q07_index.html
I haven't read them all yet ... however one of my favorite people is ALUN ANDERSON; Senior Consultant (and Former Editor-In-Chief and Publishing Director), New Scientist and he wrote this ...The Edge Annual Question — 2007
WHAT ARE YOU OPTIMISTIC ABOUT? WHY?
As an activity, as a state of mind, science is fundamentally optimistic. Science figures out how things work and thus can make them work better. Much of the news is either good news or news that can be made good, thanks to ever deepening knowledge and ever more efficient and powerful tools and techniques. Science, on its frontiers, poses more and ever better questions, ever better put.
What are you optimistic about? Why? Surprise us!
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GOT OPTIMISM?
THE WORLD'S LEADING THINKERS SEE GOOD NEWS AHEAD
While conventional wisdom tells us that things are bad and getting worse, scientists and the science-minded among us see good news in the coming years. That's the bottom line of an outburst of high-powered optimism gathered from the world-class scientists and thinkers who frequent the pages of Edge, in an ongoing conversation among third culture thinkers (i.e., those scientists and other thinkers in the empirical world who, through their work and expository writing, are taking the place of the traditional intellectual in rendering visible the deeper meanings of our lives, redefining who and what we are.)
The 2007 Edge Question marks the 10th anniversary of Edge, which began in December, 1996 as an email to about fifty people. In 2006, Edge had more than five million individual user sessions.
I am pleased to present the 2007 Edge Question:
What Are You Optimistic About? Why?
The 160 responses to this year's Edge Question span topics such as string theory, intelligence, population growth, cancer, climate and much much more. Contributing their optimistic visions are a who's who of interesting and important world-class thinkers.
Got optimism? Welcome to the conversation!
Happy New Year!
John Brockman
Publisher & Editor
January 1, 2007
I agree with his assessment and need look no further than to the current success of things like google, or even youtube how they’ve become staples in our lives; to see the truth of those future 'unforeseen' successes heading for our doorstep(s).The Sunlight-Powered Future
I'm optimistic about…a pair of very big numbers. The first is 4.5 x 10ˆ20. That is the current world annual energy use, measured in joules. It is a truly huge number and not usually a cause for optimism as 70 per cent of that energy comes from burning fossil fuels.
Thankfully, the second number is even bigger: 3,000,000 x 10ˆ20 joules. That is the amount of clean, green energy that pours down on the Earth totally free of charge every year. The Sun is providing 7,000 times as much energy as we are using, which leaves plenty for developing China, India and everyone else. How can we not be optimistic? We don't have a long-term energy problem. Our only worries are whether we can find smart ways to use that sunlight efficiently and whether we can move quickly enough from the energy systems we are entrenched in now to the ones we should be using. Given the perils of climate change and dependence on foreign energy, the motivation is there.
Can it be done? I'm lucky that as a writer I get to meet some of the world's brightest scientists each year, and I know that out there are plenty of radical new ideas for a future in which sunlight is turned straight into the forms of energy we need. Here are just three of my favourites out of scores of great ideas. First, reprogramming the genetic make-up of simple organisms so that they directly produce useable fuels (hydrogen, for example). That will be much more efficient than today's fashionable new bioethanol programs because they will cut out all the energy wasted in growing a crop, then harvesting it and then converting its sugars into fuel. Second, self-organizing polymer solar cells. Silicon solar cells may be robust and efficient but they are inevitably small and need a lot of energy to make. Self-organizing polymer cells could be ink jetted onto plastics by the hectare, creating dirt cheap solar cells the size of advertising hoardings. Third, there's artificial photosynthesis. Nature uses a different trick from silicon solar cells to capture light energy, whipping away high-energy electrons from photo-pigments into a separate system in a few thousand millionths of a second. We are getting much closer to understanding how it's done, and even how to use the same principles in totally different nano-materials.
But what of the pessimist's view that we can are just too entrenched in our current energy systems to change? There is a world-wide boom in investment in green technology already under way. And there are many transition technologies coming into operation that enable practice runs for more radical genome reprogramming and creation of new nano-structures. Although the consensus view is that the sunlight-powered future won't be taking over until 2050, I'd place an optimistic bet that one of the many smart ideas being researched now will turn out to be an unforeseen winner much earlier.