Abundance

The authors document how four forces--exponential technologies, the DIY innovator, the Technophilanthropist, and the Rising Billion--are conspiring to solve our biggest problems. "Abundance" establishes hard targets for change and lays out a strategic roadmap for governments, industry and entrepreneurs, giving us plenty of reason for optimism.

“In Abundance: Why the Future is Better Than You Think, Peter Diamandis and Steven Kotler offer a vision of the future that’s truly awesome in both the most traditional and modern understandings of the word; it’s as big as it as awe inspiring.” —The Futurist

Autorentext
Peter H. Diamandis, MD, is a New York Times bestselling author and the cofounder of Singularity University, Human Longevity, Inc., Celularity, Inc., and founder of Bold Capital Partners. He is the founder and Executive Chairman of XPRIZE. Diamandis has degrees in molecular genetics and aerospace engineering from MIT and an MD from Harvard Medical School.

Steven Kotler is a New York Times bestselling author, award-winning journalist, and the founder and executive director of the Flow Research Collective. His books include Stealing Fire, Bold, The Rise of Superman, Abundance, A Small Furry Prayer, Tomorrowland, West of Jesus, and Last Tango in Cyberspace. His work has been nominated for two Pulitzer Prizes, has been translated into more than forty languages, and has appeared in over a hundred publications, including The New York Times Magazine, The Atlantic, Wired, Forbes, and Time.

Klappentext

Bestselling manifesto on how to improve the lives of the "bottom billion" through revolutions in technology.

Zusammenfassung
TheNew York Timesbestselling "manifesto for the future that is grounded in practical solutions addressing the world's most pressing concerns: overpopulation, food, water, energy, education, health care and freedom" (The Wall Street Journal).

Since the dawn of humanity, a privileged few have lived in stark contrast to the hardscrabble majority. Conventional wisdom says this gap cannot be closed. But it is closing-fast.

InAbundance, space entrepreneur turned innovation pioneer Peter H. Diamandis and award-winning science writer Steven Kotler document how progress in artificial intelligence, robotics, digital manufacturing synthetic biology, and other exponentially growing technologies will enable us to make greater gains in the next two decades than we have in the previous 200 years. We will soon have the ability to meet and exceed the basic needs of every person on the planet. Abundance for all is within our grasp.

Breaking down human needs by category-water, food, energy, healthcare, education, freedom-Diamandis and Kotler introduce us to innovators and industry captains making tremendous strides in each area. "Not only isAbundancea riveting page-turner…but it's a book that gives us a future worth fighting for. And even more than that, it shows us our place in that fight" (The Christian Science Monitor).

Leseprobe
**CHAPTER ONE
OUR GRANDEST CHALLENGE

The Lesson of Aluminum

Gaius Plinius Cecilius Secundus, known as Pliny the Elder, was born in Italy in the year AD 23. He was a naval and army commander in the early Roman Empire, later an author, naturalist, and natural philosopher, best known for his Naturalis Historia, a thirty-seven-volume encyclopedia describing, well, everything there was to describe. His opus includes a book on cosmology, another on farming, a third on magic. It took him four volumes to cover world geography, nine for flora and fauna, and another nine for medicine. In one of his later volumes, Earth, book XXXV, Pliny tells the story of a goldsmith who brought an unusual dinner plate to the court of Emperor Tiberius.

The plate was a stunner, made from a new metal, very light, shiny, almost as bright as silver. The goldsmith claimed he’d extracted it from plain clay, using a secret technique, the formula known only to himself and the gods. Tiberius, though, was a little concerned. The emperor was one of Rome’s great generals, a warmonger who conquered most of what is now Europe and amassed a fortune of gold and silver along the way. He was also a financial expert who knew the value of his treasure would seriously decline if people suddenly had access to a shiny new metal rarer than gold. “Therefore,” recounts Pliny, “instead of giving the goldsmith the regard expected, he ordered him to be beheaded.”

This shiny new metal was aluminum, and that beheading marked its loss to the world for nearly two millennia. It next reappeared during the early 1800s but was still rare enough to be considered the most valuable metal in the world. Napoléon III himself threw a banquet for the king of Siam where the honored guests were given aluminum utensils, while the others had to make do with gold.

Aluminum’s rarity comes down to chemistry. Technically, behind oxygen and silicon, it’s the third most abundant element in the Earth’s crust, making up 8.3 percent of the weight of the world. Today it’s cheap, ubiquitous, and used with a throwaway mind-set, but—as Napoléon’s banquet demonstrates—this wasn’t always the case. Because of aluminum’s high affinity for oxygen, it never appears in nature as a pure metal. Instead it’s found tightly bound as oxides and silicates in a claylike material called bauxite.

While bauxite is 52 percent aluminum, separating out the pure metal ore was a complex and difficult task. But between 1825 and 1845, Hans Christian Oersted and Frederick Wohler discovered that heating anhydrous aluminum chloride with potassium amalgam and then distilling away the mercury left a residue of pure aluminum. In 1854 Henri Sainte-Claire Deville created the first commercial process for extraction, driving down the price by 90 percent. Yet the metal was still costly and in short supply.

It was the creation of a new breakthrough technology known as electrolysis, discovered independently and almost simultaneously in 1886 by American chemist Charles Martin Hall and Frenchman Paul Héroult, that changed everything. The Hall-Héroult process, as it is now known, uses electricity to liberate aluminum from bauxite. Suddenly everyone on the planet had access to ridiculous amounts of cheap, light, pliable metal.

Save the beheading, there’s nothing too unusual in this story. History’s littered with tales of once-rare resources made plentiful by innovation. The reason is pretty straightforward: scarcity is often contextual. Imagine a giant orange tree packed with fruit. If I pluck all the oranges from the lower branches, I am effectively out of accessible fruit. From my limited perspective, oranges are now scarce. But once someone invents a piece of technology called a ladder, I’ve suddenly got new reach. Problem solved. Technology is a resource-liberating mechanism. It can make the once scarce the now abundant.

To expand on this a bit, let’s take a look at the planned city of Masdar, now under construction by the Abu Dhabi Future Energy Company. Located on the edge of Abu Dhabi, out past the oil refinery and the airport, Masdar will soon house 50,000 residents, while another 40,000 work there. They will do so without producing any waste or releasing any carbon. No cars will be allowed within the city’s perimeter and no fossil fuels will be consumed inside its walls. Abu Dhabi is the fourth-largest OPEC producer, with 10 percent of known oil reserves. Fortune magazine once called it the wealthiest city in the world. All of which makes it interesting that they’re will…