Peter H. Diamandis: Planetary Resources

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pages: 368 words: 96,825

Bold: How to Go Big, Create Wealth and Impact the World by Peter H. Diamandis, Steven Kotler


3D printing, additive manufacturing, Airbnb, Amazon Mechanical Turk, Amazon Web Services, augmented reality, autonomous vehicles, cloud computing, creative destruction, crowdsourcing, Daniel Kahneman / Amos Tversky, dematerialisation, deskilling, Elon Musk,, Exxon Valdez, fear of failure, Firefox, Galaxy Zoo, Google Glasses, Google Hangouts, Google X / Alphabet X, gravity well, ImageNet competition, industrial robot, Internet of things, Jeff Bezos, John Harrison: Longitude, John Markoff, Jono Bacon, Just-in-time delivery, Kickstarter, Kodak vs Instagram, Law of Accelerating Returns, Lean Startup, life extension, loss aversion, Louis Pasteur, Mahatma Gandhi, Marc Andreessen, Mark Zuckerberg, Mars Rover, meta analysis, meta-analysis, microbiome, minimum viable product, move fast and break things, Narrative Science, Netflix Prize, Network effects, Oculus Rift, optical character recognition, packet switching, PageRank, pattern recognition, performance metric, Peter H. Diamandis: Planetary Resources, Peter Thiel, pre–internet, Ray Kurzweil, recommendation engine, Richard Feynman, Richard Feynman, ride hailing / ride sharing, risk tolerance, rolodex, self-driving car, sentiment analysis, shareholder value, Silicon Valley, Silicon Valley startup, skunkworks, Skype, smart grid, stem cell, Stephen Hawking, Steve Jobs, Steven Levy, Stewart Brand, technoutopianism, telepresence, telepresence robot, Turing test, urban renewal, web application, X Prize, Y Combinator, zero-sum game

Finally, we wish to thank the hundreds and thousands of fans and readers who have given us feedback through Google+, Facebook, and email as we developed this content. The names of these friends can be found here: PETER H. DIAMANDIS is a New York Times–bestselling author and the founder of more than 15 high-tech companies. He is the CEO of the XPRIZE (, executive chairman of the Singularity University (, a Silicon Valley–based institution backed by Google, 3-D Systems, and NASA. He is cochairman of Planetary Resources, Inc. and the cofounder of Human Longevity, Inc. Dr. Diamandis attended MIT, where he received his degrees in molecular genetics and aerospace engineering, and Harvard Medical School, where he received his MD. In 2014 he was named one of “The World’s 50 Greatest Leaders” by Fortune magazine.

How can I get involved?” The idea is so convincing that your mind accepts it as fact and your focus shifts from probabilities to implications. Plotting the Line of Super Credibility Plotting the Line of Super-Credibility. (1) Non-credible rollout; (2) credible rollout, non-credible performance; (3) credible rollout, super-credible performance; and (4) super-credible rollout. Source: Peter H. Diamandis Unless Planetary Resources was introduced to the world far above that line, clearly it would be dismissed out of hand. We needed to assemble a team that people would intuitively trust to execute this vision. Chris Lewicki—who had run three different billion-dollar Mars missions at NASA’s fabled Jet Propulsion Laboratory (JPL)—was our first stop. With him as our president and chief engineer, we went on to recruit many of the top engineers who built, designed, and operated Mars rover Curiosity (we knew we were on the right track when Eric received a call from the head of JPL asking us to kindly stop recruiting his best people).

Hello, Exponential Chapter Two: Exponential Technology: The Democratization of the Power to Change the World Chapter Three: Five to Change the World PART TWO: BOLD MINDSET Chapter Four: Climbing Mount Bold Chapter Five: The Secrets of Going Big Chapter Six: Billionaire Wisdom: Thinking at Scale PART THREE: THE BOLD CROWD Chapter Seven: Crowdsourcing: Marketplace of the Rising Billion Chapter Eight: Crowdfunding: No Bucks, No Buck Rogers Chapter Nine: Building Communities Chapter Ten: Incentive Competitions: Getting the Best and Brightest to Help Solve Your Challenges Afterword: Next Steps—How to Take Action Acknowledgments About Peter H. Diamandis and Steven Kotler Notes Index PETER’S DEDICATION I dedicate this book to my parents, Harry P. Diamandis, MD and Tula Diamandis, whose bold journey from the Greek island of Lesvos to the United States, and their success in medicine and family inspired me to go big, create wealth, and impact the world. STEVEN’S DEDICATION This one is for Jamie Wheal, my great friend and partner in the Flow Genome Project, without whom this journey would be a lot less interesting and make a lot less sense.

pages: 370 words: 97,138

Beyond: Our Future in Space by Chris Impey


3D printing, Admiral Zheng, Albert Einstein, Alfred Russel Wallace, Berlin Wall, Buckminster Fuller, butterfly effect, California gold rush, carbon-based life, Colonization of Mars, cosmic abundance, crowdsourcing, cuban missile crisis, dark matter, discovery of DNA, Doomsday Clock, Edward Snowden, Elon Musk, Eratosthenes, Haight Ashbury, Hyperloop, I think there is a world market for maybe five computers, Isaac Newton, Jeff Bezos, John von Neumann, Kickstarter, life extension, Mahatma Gandhi, Marc Andreessen, Mars Rover, mutually assured destruction, Oculus Rift, operation paperclip, out of africa, Peter H. Diamandis: Planetary Resources, phenotype, purchasing power parity, RAND corporation, Ray Kurzweil, RFID, Richard Feynman, Richard Feynman, Richard Feynman: Challenger O-ring, risk tolerance, Rubik’s Cube, Search for Extraterrestrial Intelligence, Searching for Interstellar Communications, Silicon Valley, skunkworks, Skype, Stephen Hawking, Steven Pinker, supervolcano, technological singularity, telepresence, telerobotics, the medium is the message, the scientific method, theory of mind, There's no reason for any individual to have a computer in his home - Ken Olsen, V2 rocket, wikimedia commons, X Prize, Yogi Berra

That mission (with a price tag of nearly $3 billion) has been getting pushback from Congress, so it may not happen. These concepts are small precursors to any viable mining operation. Despite the costs, however, the potential returns are eye-popping, according to plausible economic models.25 In 1997, scientists estimated that a metallic asteroid a mile across contains $20 trillion of precious and industrial metals. Peter Diamandis, the X Prize guru who founded the extraterrestrial mining company Planetary Resources in 2012, has estimated that even a tiny, 100-foot-long asteroid holds as much as $50 billion worth of platinum alone. By 2020, he wants to build a fuel depot in space using water from asteroids to make liquid hydrogen and liquid oxygen for rocket fuel. Experts remain skeptical. There’s a huge difference between the market value of a space resource and the actual value after doing the hard work of mining the ore and bringing home the prize.

From a Reddit discussion on October 17, 2013, online at 12. We by C. Lindbergh 1927. New York: Putnam and Sons. The title refers to the fact that Lindbergh never referred to himself in making his historic flight—he always twinned himself with his plane, the Spirit of St. Louis. 13. “The Dream of the Medical Tricorder” 2012. The Economist, online at 14. “Peter Diamandis: Rocket Man” by B. Caulfield 2012. Forbes magazine, February 13, online at 15. Diamandis recounts the story of Hawking’s zero-gravity ride in his blog entry for February 15, 2013, in the Huffington Post, online at 16.

“Ultimately this is about democratizing access to health care around the world,” says Diamandis, and he notes that, as with space travel, “The technology is evolving much faster than the regulations are.”13 The only “failed” competition was the Archon Genomics X Prize to accurately sequence 100 genomes in ten days or fewer, at a cost of less than $1,000 per genome. In that case, burgeoning progress in the biotech sector rendered an incentive prize moot.14 The quintessential experience of an astronaut is zero gravity. To whet people’s appetite for space, Diamandis founded a for-profit company called the Zero G Corporation to give paying customers a taste of weightlessness in parabolic flight. It was 1992, the 500th anniversary of Columbus’s epic voyage, and the Bush administration’s Moon–Mars initiative had just fizzled out. Diamandis thought governments would never have the nimbleness or stomach for risk to take on the challenge of space.

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Tomorrowland: Our Journey From Science Fiction to Science Fact by Steven Kotler


Albert Einstein, Alexander Shulgin, autonomous vehicles, barriers to entry, Burning Man, carbon footprint, Colonization of Mars, crowdsourcing, Dean Kamen, epigenetics, gravity well, haute couture, interchangeable parts, Kevin Kelly, life extension, Louis Pasteur, North Sea oil, Oculus Rift, oil shale / tar sands, peak oil, personalized medicine, Peter H. Diamandis: Planetary Resources, RAND corporation, Ray Kurzweil, Richard Feynman, Richard Feynman, Ronald Reagan, self-driving car, stem cell, Stephen Hawking, Stewart Brand, theory of mind, Watson beat the top human players on Jeopardy!, Whole Earth Catalog, WikiLeaks

In the fifty years since Vostok 1, the first ever manned spaceflight, asteroid mining has gone from a perennial pipedream of the Star Trek Forever crowd to a serious enough proposition that a Vatican astronomer felt the need to address ethical concerns in public. In fact, in April 2012 — and with backing from the likes of Google cofounder Larry Page, Google executive chairman Eric Schmidt, and Virgin founder Sir Richard Branson — Peter Diamandis, creator of the XPRIZE, alongside Eric Anderson, CEO of Space Adventures Ltd. (the private space tourism company that flew Stephen Hawking into zero-G and sent billionaire Dennis Tito to the International Space Station), announced Planetary Resources Inc. (PRI), a newly formed asteroid mining company. This time, it was Comedy Central host Jon Stewart who summed things up nicely: “Space pioneers going to mine motherfucking asteroids for precious materials! BOOM! BOOM! YES! Stu-Beef is all in. Do you know how rarely the news in 2012 looks and sounds like you thought news would look and sound in 2012?”

ALSO BY STEVEN KOTLER The Angle Quickest for Flight West of Jesus A Small, Furry Prayer The Rise of Superman Abundance (with Peter Diamandis) Bold (with Peter Diamandis) Text copyright © 2015 by Steven Kotler All rights reserved. No part of this work may be reproduced, or stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without written permission of the publisher. Published by Amazon Publishing, New York Amazon, the Amazon logo and Amazon Publishing are trademarks of, Inc. or its affiliates. ISBN-13: 9781477827949 ISBN-10: 1477827943 Cover design by Dave Stanton / Faceout Studio Author photograph by Ryan Heffernan For my mother and father Contents Start Reading The Future Is Here: AN INTRODUCTION PART ONE: THE FUTURE IN HERE Bionic Man: THE WORLD’S FIRST BIONIC MAN 1 2 3 4 5 6 7 8 The Genius Who Sticks Around Forever: THE SCIENCE OF MIND UPLOADING 1 2 3 4 Extreme States: THE BIOLOGY OF SPIRITUALITY 1 2 3 4 5 Evolution’s Next Stage: THE FUTURE OF EVOLUTION 1 2 3 4 5 Vision Quest: THE WORLD’S FIRST ARTIFICIAL VISION IMPLANT 1 2 3 4 5 6 7 8 PART TWO: THE FUTURE OUT THERE Reengineering the Everglades: THE WORLD’S FIRST TERRAFORMING PROJECT 1 2 3 4 5 6 Buckaroo Banzai: THE ARRIVAL OF FLYING CARS 1 2 3 4 Meltdown or Mother Lode: THE POSSIBILITIES OF NUCLEAR ENERGY 1 2 3 4 5 6 Space Diving: THE FUTURE OF SPORT 1 Building a Better Mosquito: THE WORLD’S FIRST GENETICALLY ENGINEERED CREATURE 1 2 3 4 The Great Galactic Gold Rush: THE BIRTH OF THE ASTEROID MINING INDUSTRY 1 2 3 PART THREE: THE FUTURE UNCERTAIN The Psychedelic Renaissance: THE RADICAL WORLD OF PSYCHEDELIC MEDICINE 1 2 3 4 5 6 7 8 9 10 11 Sympathy for the Devil: THE TROUBLED SCIENCE OF LIFE EXTENSION 1 2 3 4 5 6 The Final Frontier: THE POLITICS OF STEM CELLS 1 2 3 4 5 6 Hacking the President’s DNA: THE CONSEQUENCES OF PLAYING GOD 1 2 3 4 5 6 7 8 9 The God of Sperm: THE CONTROVERSIAL FUTURE OF BIRTH 1 2 3 4 5 6 Acknowledgments About the Author Index Sure this is magic, but not necessarily fantasy.

This means that today, right now, we have companies willing and able to place multibillion dollars bets [a typical deep-sea platform runs between five and fifty billion] on high-risk, robotically-run, resource extraction missions — which is asteroid mining to a tee.” “You need to examine the facts,” says Eric Anderson, “No laws of physics need to be reconfigured to mine an asteroid. There are no technology gaps. Truthfully, building a North Sea oil platform is a lot harder.” And, suddenly, Houston, we have proof of concept. 3. So what will this concept look like in our lifetime? Already, Planetary Resources has raised over $1.5 million to help launch the ARKYD 100 space telescope, which is specifically designed to hunt for near-Earth asteroid mining prospects. There’s also President Obama’s announcement that he wants to land astronauts on an asteroid by 2025. Teams at Johnson Space Center in Houston and the Jet Propulsion Laboratory in Pasadena are hard at work on this goal, so a government-sponsored first step is not out of the question.

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Exponential Organizations: Why New Organizations Are Ten Times Better, Faster, and Cheaper Than Yours (And What to Do About It) by Salim Ismail, Yuri van Geest


23andMe, 3D printing, Airbnb, Amazon Mechanical Turk, Amazon Web Services, augmented reality, autonomous vehicles, Baxter: Rethink Robotics, bioinformatics, bitcoin, Black Swan, blockchain, Burning Man, business intelligence, business process, call centre, chief data officer, Chris Wanstrath, Clayton Christensen, clean water, cloud computing, cognitive bias, collaborative consumption, collaborative economy, commoditize, corporate social responsibility, cross-subsidies, crowdsourcing, cryptocurrency, dark matter, Dean Kamen, dematerialisation, discounted cash flows, distributed ledger, Edward Snowden, Elon Musk,, ethereum blockchain, Galaxy Zoo, game design, Google Glasses, Google Hangouts, Google X / Alphabet X, gravity well, hiring and firing, Hyperloop, industrial robot, Innovator's Dilemma, intangible asset, Internet of things, Iridium satellite, Isaac Newton, Jeff Bezos, Kevin Kelly, Kickstarter, knowledge worker, Kodak vs Instagram, Law of Accelerating Returns, Lean Startup, life extension, lifelogging, loose coupling, loss aversion, Lyft, Marc Andreessen, Mark Zuckerberg, market design, means of production, minimum viable product, natural language processing, Netflix Prize, Network effects, new economy, Oculus Rift, offshore financial centre, p-value, PageRank, pattern recognition, Paul Graham, peer-to-peer, peer-to-peer model, Peter H. Diamandis: Planetary Resources, Peter Thiel, prediction markets, profit motive, publish or perish, Ray Kurzweil, recommendation engine, RFID, ride hailing / ride sharing, risk tolerance, Ronald Coase, Second Machine Age, self-driving car, sharing economy, Silicon Valley, skunkworks, Skype, smart contracts, Snapchat, social software, software is eating the world, speech recognition, stealth mode startup, Stephen Hawking, Steve Jobs, subscription business, supply-chain management, TaskRabbit, telepresence, telepresence robot, Tony Hsieh, transaction costs, Tyler Cowen: Great Stagnation, urban planning, WikiLeaks, winner-take-all economy, X Prize, Y Combinator, zero-sum game

He has consulted for Google, ING Bank, Vodafone Group, Adidas Global, Philips Global, Heineken Global, Friesland Campina, Samsung and MIT, and was a key member of the Topteam Creative Industry within the Dutch Ministry of Economic Affairs, Agriculture and Innovation for two years. PETER H. DIAMANDIS is a serial entrepreneur having co-founded fifteen companies, most notably the X Prize Foundation, Singularity University and Planetary Resources. He has a molecular biology and aerospace engineering degree from MIT and an MD from Harvard. He is also the co-author of the New York Times bestselling book, Abundance: The Future Is Much Better Than You Think, which is recommended pre-reading for those interested in Exponential Organizations. CNN and Fortune just named Peter Diamandis one of “The World’s 50 Greatest Leaders.” Acknowledgements (from Salim, Yuri and Mike) We’ve realized it doesn’t just take a village to complete a project like this—it takes a whole town.

., & Smeulders, R. (2013). Groot Innovatie Modellenboek. Van Duuren Management. Mandour, Y., Brees, K., & Wenting, R. (2012). Groeimodellen: Creëer nieuwe business. Van Duuren Management. About the Authors This book is a joint collaboration involving Salim Ismail, Michael S. Malone and Yuri van Geest, with key ideas and framing provided by Peter Diamandis, along with consultation from the faculty of Singularity University. Ismail and Diamandis became business partners when they founded Singularity University, an institution created to study the impact of exponentially growing technologies on companies, industries and humanity’s grand challenges. Van Geest has been involved in the collaboration, writing, researching and thinking of this book for almost the entire three years of its creation.

Exponential Organizations Why new organizations are ten times better, faster, and cheaper than yours (and what to do about it) Salim Ismail with Michael S. Malone and Yuri van Geest Foreword and Afterword by Peter H. Diamandis Copyright Diversion Books A Division of Diversion Publishing Corp. 443 Park Avenue South, Suite 1008 New York, NY 10016 Copyright © 2014 by ExO Partners LLC All rights reserved, including the right to reproduce this book or portions thereof in any form whatsoever. For more information, email First Diversion Books edition October 2014 ISBN: 978-1-62681-358-8 Table of Contents Foreword Introduction The Iridium Moment Doubling Down Exponential Organizations PART ONE: Exploring the Exponential Organization Chapter One: Illuminated by Information Chapter Two: A Tale of Two Companies Chapter Three: The Exponential Organization Massive Transformative Purpose (MTP) Staff on Demand Community & Crowd Algorithms Leveraged Assets Engagement Chapter Four: Inside the Exponential Organization Interfaces Dashboards Experimentation Autonomy Social Technologies Chapter Five: Implications of Exponential Organizations 1.

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Tools of Titans: The Tactics, Routines, and Habits of Billionaires, Icons, and World-Class Performers by Timothy Ferriss


Airbnb, Alexander Shulgin, artificial general intelligence, asset allocation, Atul Gawande, augmented reality, back-to-the-land, Bernie Madoff, Bertrand Russell: In Praise of Idleness, Black Swan, blue-collar work, Buckminster Fuller, business process, Cal Newport, call centre, Checklist Manifesto, cognitive bias, cognitive dissonance, Colonization of Mars, Columbine, commoditize, correlation does not imply causation, David Brooks, David Graeber, diversification, diversified portfolio, Donald Trump, effective altruism, Elon Musk, fault tolerance, fear of failure, Firefox, follow your passion, future of work, Google X / Alphabet X, Howard Zinn, Hugh Fearnley-Whittingstall, Jeff Bezos, job satisfaction, Johann Wolfgang von Goethe, John Markoff, Kevin Kelly, Kickstarter, Lao Tzu, life extension, lifelogging, Mahatma Gandhi, Marc Andreessen, Mark Zuckerberg, Mason jar, Menlo Park, Mikhail Gorbachev, Nicholas Carr, optical character recognition, PageRank, passive income, pattern recognition, Paul Graham, peer-to-peer, Peter H. Diamandis: Planetary Resources, Peter Singer: altruism, Peter Thiel, phenotype, PIHKAL and TIHKAL, post scarcity, premature optimization, QWERTY keyboard, Ralph Waldo Emerson, Ray Kurzweil, recommendation engine, rent-seeking, Richard Feynman, Richard Feynman, risk tolerance, Ronald Reagan, selection bias, sharing economy, side project, Silicon Valley, skunkworks, Skype, Snapchat, social graph, software as a service, software is eating the world, stem cell, Stephen Hawking, Steve Jobs, Stewart Brand, superintelligent machines, Tesla Model S, The Wisdom of Crowds, Thomas L Friedman, Wall-E, Washington Consensus, Whole Earth Catalog, Y Combinator, zero-sum game

So where inside of your companies are you trying crazy ideas?’ ” Spirit animal: Eagle * * * Peter Diamandis Dr. Peter H. Diamandis (TW: @PeterDiamandis, has been named one of the World’s 50 Greatest Leaders by Fortune magazine. Peter is founder and executive chairman of the XPRIZE Foundation, best known for its $10 million Ansari XPRIZE for private spaceflight. Today the XPRIZE leads the world in designing and operating large-scale global competitions to solve market failures. He is also the co-founder (along with J. Craig Venter and Bob Hariri) and vice chairman of Human Longevity, Inc. (HLI); and the co-founder and executive chairman of Planetary Resources, a company designing spacecraft to prospect near-Earth asteroids for precious materials (seriously). He is the author of books including Bold and Abundance, which have endorsements from Bill Clinton, Eric Schmidt, and Ray Kurzweil, among others.

Though indebted to hundreds of people, I wish to thank here the many guests who have appeared on my podcast and who grace the pages of this book, listed in alphabetical order: Scott Adams (p. 261) James Altucher (p. 246) Sophia Amoruso (p. 376) Marc Andreessen (p. 170) Sekou Andrews (p. 642) Patrick Arnold (p. 35) Peter Attia (p. 59) Glenn Beck (p. 553) Scott Belsky (p. 359) Richard Betts (p. 563) Mike Birbiglia (p. 566) Alex Blumberg (p. 303) Amelia Boone (p. 2) Justin Boreta (p. 356) Tara Brach (p. 555) Brené Brown (p. 586) Bryan Callen (p. 483) Shay Carl (p. 441) Dan Carlin (p. 285) Ed Catmull (p. 309) Margaret Cho (p. 538) Paulo Coelho (p. 511) Ed Cooke (p. 517) Kevin Costner (p. 451) Whitney Cummings (p. 477) Dominic D’Agostino (p. 21) Alain de Botton (p. 486) Joe De Sena (p. 38) Mike Del Ponte (p. 299) Peter Diamandis (p. 369) Tracy DiNunzio (p. 313) Jack Dorsey (p. 509) Stephen J. Dubner (p. 574) Dan Engle (p. 109) James Fadiman (p. 100) Jon Favreau (p. 592) Jamie Foxx (p. 604) Chris Fussell (p. 435) Cal Fussman (p. 495) Adam Gazzaley (p. 135) Malcolm Gladwell (p. 572) Seth Godin (p. 237) Evan Goldberg (p. 531) Marc Goodman (p. 424) Laird Hamilton (p. 92) Sam Harris (p. 454) Wim Hof (p. 41) Reid Hoffman (p. 228) Ryan Holiday (p. 334) Chase Jarvis (p. 280) Daymond John (p. 323) Bryan Johnson (p. 609) Sebastian Junger (p. 420) Noah Kagan (p. 325) Samy Kamkar (p. 427) Kaskade (p. 329) Sam Kass (p. 558) Kevin Kelly (p. 470) Brian Koppelman (p. 613) Tim Kreider (p. 489) Paul Levesque (p. 128) Phil Libin (p. 315) Will MacAskill (p. 446) Brian MacKenzie (p. 92) Justin Mager (p. 72) Nicholas McCarthy (p. 208) Gen.

Novak (p. 378) Alexis Ohanian (p. 194) Amanda Palmer (p. 520) Rhonda Patrick (p. 6) Caroline Paul (p. 459) Martin Polanco (p. 109) Charles Poliquin (p. 74) Maria Popova (p. 406) Rolf Potts (p. 362) Naval Ravikant (p. 546) Gabby Reece (p. 92) Tony Robbins (p. 210) Robert Rodriguez (p. 628) Seth Rogen (p. 531) Kevin Rose (p. 340) Rick Rubin (p. 502) Chris Sacca (p. 164) Arnold Schwarzenegger (p. 176) Ramit Sethi (p. 287) Mike Shinoda (p. 352) Jason Silva (p. 589) Derek Sivers (p. 184) Joshua Skenes (p. 500) Christopher Sommer (p. 9) Morgan Spurlock (p. 221) Kelly Starrett (p. 122) Neil Strauss (p. 347) Cheryl Strayed (p. 515) Chade-Meng Tan (p. 154) Peter Thiel (p. 232) Pavel Tsatsouline (p. 85) Luis von Ahn (p. 331) Josh Waitzkin (p. 577) Eric Weinstein (p. 523) Shaun White (p. 271) Jocko Willink (p. 412) Rainn Wilson (p. 543) Chris Young (p. 318) Andrew Zimmern (p. 540) Contents FOREWORD ON THE SHOULDERS OF GIANTS READ THIS FIRST—HOW TO USE THIS BOOK * * * Part 1: Healthy Amelia Boone Rhonda Perciavalle Patrick Christopher Sommer Gymnast Strong Dominic D’Agostino Patrick Arnold Joe De Sena Wim “The Iceman” Hof Rick Rubin’s Barrel Sauna Jason Nemer AcroYoga—Thai and Fly Deconstructing Sports and Skills with Questions Peter Attia Justin Mager Charles Poliquin The Slow-Carb Diet® Cheat Sheet My 6-Piece Gym in a Bag Pavel Tsatsouline Laird Hamilton, Gabby Reece & Brian MacKenzie James Fadiman Martin Polanco & Dan Engle Kelly Starrett Paul Levesque (Triple H) Jane McGonigal Adam Gazzaley 5 Tools for Faster and Better Sleep 5 Morning Rituals that Help Me Win the Day Mind Training 101 Three Tips from a Google Pioneer Coach Sommer—The Single Decision * * * Part 2: Wealthy Chris Sacca Marc Andreessen Arnold Schwarzenegger Derek Sivers Alexis Ohanian “Productivity” Tricks for the Neurotic, Manic-Depressive, and Crazy (Like Me) Matt Mullenweg Nicholas McCarthy Tony Robbins Casey Neistat Morgan Spurlock What My Morning Journal Looks Like Reid Hoffman Peter Thiel Seth Godin James Altucher How to Create a Real-World MBA Scott Adams Shaun White The Law of Category Chase Jarvis Dan Carlin Ramit Sethi 1,000 True Fans—Revisited Hacking Kickstarter Alex Blumberg The Podcast Gear I Use Ed Catmull Tracy DiNunzio Phil Libin Chris Young Daymond John Noah Kagan Kaskade Luis von Ahn The Canvas Strategy Kevin Rose Gut Investing Neil Strauss Mike Shinoda Justin Boreta Scott Belsky How to Earn Your Freedom Peter Diamandis Sophia Amoruso B.J. Novak How to Say “No” When It Matters Most * * * Part 3: Wise BJ Miller Maria Popova Jocko Willink Sebastian Junger Marc Goodman Samy Kamkar Tools of a Hacker General Stanley McChrystal & Chris Fussell Shay Carl Will MacAskill The Dickens Process—What Are Your Beliefs Costing You? Kevin Costner Sam Harris Caroline Paul My Favorite Thought Exercise: Fear-Setting Kevin Kelly Is This What I So Feared?

pages: 326 words: 97,089

Five Billion Years of Solitude: The Search for Life Among the Stars by Lee Billings


Albert Einstein, Arthur Eddington, California gold rush, Colonization of Mars, cosmological principle, cuban missile crisis, dark matter, Dava Sobel, double helix, Edmond Halley, full employment, hydraulic fracturing, index card, Isaac Newton, Kuiper Belt, Magellanic Cloud, music of the spheres, out of africa, Peter H. Diamandis: Planetary Resources, planetary scale, profit motive, quantitative trading / quantitative finance, Ralph Waldo Emerson, RAND corporation, random walk, Search for Extraterrestrial Intelligence, Searching for Interstellar Communications, selection bias, Silicon Valley, Solar eclipse in 1919, technological singularity, the scientific method, transcontinental railway

Did Seager have a get-rich-quick scheme I didn’t know about? She smiled. “This sounds like a joke, but it’s very serious: mining asteroids. If that happens in thirty, forty years, I’ll be too old to run TPF, but at least I’d have the money to make it personally happen.” Seager had signed on as a scientific advisor with a new venture, Planetary Resources, Inc., which would publicly debut two months after our conversation. The company was cofounded by two influential entrepreneurs of the emerging private spaceflight industry, Eric Anderson and Peter Diamandis; among its investors were Eric Schmidt and Larry Page of Google, and the billionaire space tourist and software developer Charles Simonyi. Other than Seager, its advisors included the Hollywood filmmaker and deep-ocean explorer James Cameron and a former U.S. Air Force chief of staff, General T.

Michael Moseley. The business plan was, at its core, quite simple: locate and extract valuable resources from near-Earth asteroids, many of which are thought to contain deposits of platinum and other rare metals valued at trillions of dollars based on existing market prices. If, against long odds, the venture eventually proved successful, its core team stood to net multibillion-dollar profits. Planetary Resources planned to begin by building and launching small space telescopes, both to remotely “prospect” asteroids and to sell observing time to public and private parties. The next steps involved creating a low-cost interplanetary communications network and sending fleets of nimble robotic spacecraft to rendezvous with the most promising asteroids for closer inspection and eventual recovery of their rich resources.

., 15 Pennsylvania, 124, 128, 131, 133, 138, 143, 144 coal mining in, 125 Marcellus formation in, 126–30, 137, 138, 141, 144, 160 Pennsylvania State University, 127, 149, 153 Permian Period, 132 petroleum, 125–26, 137, 160, 184 Phanerozoic Eon, 138, 144 Phobos, 100 photolysis, 156, 172 photons, 72, 89, 115–16, 156, 191, 193–94, 201, 202, 213, 216, 237–38 photosynthesis, 29, 33, 131, 140–43, 154, 169, 175, 180–82 Pioneer, 239 Planetary Resources, Inc., 258–59 planetesimals, 2 planets: extrasolar, see exoplanets formation of, in our solar system, 2–3, 31, 109, 238 Kepler’s laws of motion of, 82–84 protoplanets, 2 transits of, 53 plants, 130–32, 143 photosynthesis in, 29, 33, 131, 140–43, 154, 169, 175, 180–82 plate tectonics, 30, 105, 111, 128, 140, 144, 169, 172, 176, 179, 229 Plato, 78–80, 82 Pluto, 110, 191, 239 polarization, 115–16 POLISH, 115–17 Pollack, James, 158 Pong, Christopher, 259 Precambrian period, 139–40, 144, 154, 238 precious metals, 105–6, 111 primordial soup, 19 Proceedings of the Royal Society, 84 Project Ozma, 11, 14, 47–48 prokaryotes, 139, 140, 143, 144 Proterozoic Eon, 140–44, 171, 179 protons, 88 protoplanets, 2 Proxima Centauri, 94, 97 psychohistory, 152 pyrite, 173 Pythagoras, 78, 82 Quaternary Period, 133 Queloz, Didier, 58 radio, 42–43, 45 Radio Astronomy Laboratory, 12 Recession, Great, 13, 106–7, 165, 196 recombination, 248, 249 red beds, 131 redox reactions, 168 redwood trees, 30–31, 106, 110 Regulus, 239 Renaissance, 22, 81 Reynolds, Ray, 155–56 Ricketts, Taylor, 74–77 Rittenhouse, David, 86 Road Map for the Exploration of Neighboring Planetary Systems, A, 211–12, 214, 221 rocket equation, 186 Sagan, Carl, 16, 19, 20, 24–25, 174, 239–42, 243 San Diego Air & Space Museum, 100 Sasselov, Dimitar, 226, 249 Saturn, 28, 83, 109, 191 Saturn rockets, 151–52, 187, 188, 202, 203 Schmidt, Eric, 258 Science, 104 scientific method, 78 Seager, Sara, 243–65 children of, 251–53, 156, 160–61, 264 ExoplanetSat project of, 256–57 “Next 40 Years of Exoplanets” conference of, 225–35, 263 as Planetary Resources advisor, 258–59 TPF work of, 225–28, 232–35, 249–53, 255–58, 262 Wevrick and, 244–49, 251–56, 264 Wevrick’s illness and death and, 253–56, 264, 265 Wevrick’s marriage to, 249 SETI (search for extraterrestrial intelligence), 9–14, 38, 41 Arecibo Observatory and, 41 Drake equation and, 16–25 first modern search by, 10–11 Green Bank conference of, 15–25, 27–28, 101, 167–68, 240 lack of funding for, 10–14 Laughlin’s view of, 99 NASA and, 11–12 Project Ozma, 11, 14, 47–48 SETI Institute, 12, 43 Allen Telescope Array of, 12–14, 41, 42 shales, see black shales Simonyi, Charles, 258 Smith, Matt, 259 Snowball Earth events, 142, 174, 179 solar eclipse, 119 solar system, 19, 87 evolution of, as viewed from stars, 238–39 formation of, 1–3, 31, 139 formation of Earth in, 2, 7, 20, 139, 173 formation of planets in, 2–3, 31, 109, 238 heliocentric model of, 79–82 measuring size of, 86 shell of light surrounding, 237–38 Soviet Union, 11 nuclear weapons and, 23 Soyuz rocket, 233–34 Venera 13, 50 Space Age, 48, 50, 87, 99, 112, 151 Space Interferometry Mission (SIM), 215 space junk, 13 Space Launch System, 204 space missions, 187–99 Apollo, 1, 50, 151, 187, 202, 212, 239 Ares V, 203 Atlantis, 185–87 ATLAST, 198, 203, 230 Challenger, 3, 188–89 Columbia, 189, 196 commercial providers and, 233–34, 258–59 Constellation program, 196, 198, 203, 204, 215, 221, 223 ExoplanetSat, 256–57 Galileo, 241–42 Great Observatories, 192, 197, 209 Hubble Space Telescope, 189–93, 195, 197–99, 205–7, 209, 218–19, 226 International Space Station, 187, 189, 197, 202, 207–8, 210 James Webb Space Telescope, 193–99, 202–4, 209, 215, 216, 218, 220, 225, 262 Kepler Space Telescope, 13–14, 53–54, 56, 62, 71–73, 98, 108–9, 166, 201, 225, 229–30, 263 to Mars, 187, 188, 196, 207, 221 to Moon, see Moon, missions to New Horizons, 239 OpTIIX, 207–8, 210 Pioneer, 239–40 Saturn rockets, 151–52, 187, 188, 202, 203 shuttle program failures, 188–89 Terrestrial Planet Finders, see Terrestrial Planet Finders Tsiolkovsky and, 186–87 Voyager, see Voyager missions Space Telescope Science Institute, 198, 199, 212, 257–58 spectra, 200–202, 250 spectroscopy, spectrometers, 33–34, 51–52 in Alpha Centauri search, 94–98 CHIRON, 62 Hamilton, 58, 114 HARPS, 60–61, 63–69, 96, 98 HIRES, 59–63, 66 iodine cell calibration in, 58 radial-velocity (RV), 51, 53–58, 60, 61–64, 66, 68, 94–98, 108, 114 Spergel, David, 218–20, 249 Spitzer, Lyman, 189, 209 Spitzer Space Telescope, 192, 209 Sproul Telescope, 52 spy satellites, 188, 189, 205, 209 SRI International, 42 Stahl, Phil, 203 Stamenkovic, Vlada, 259 stars, 200–201 47 Ursae Majoris, 59 51 Pegasi, 50 61 Virginis, 55 70 Virginis, 59 Alpha Centauri, see Alpha Centauri binary systems, 18, 94 Dyson spheres for capturing energy of, 104, 105 in early cosmology, 78–80 of exoplanets, observations of, 33 formation of, 17–18, 27 GJ 667C, 65, 66 Gliese 581, 63, 68, 163 HD 83443, 60 HD 209458, 60, 228 HR 8799, 238 Kepler field, 41 laws of nature and, 155–56 M13 cluster, 39–41 measuring distances to, 86 Proxima Centauri, 94, 97 red dwarf (M-dwarf), 27, 172, 228–30, 262 spectroscopy and, see spectroscopy, spectrometers Sun-like, 18, 50, 55, 201, 228, 230, 238, 256, 257 transits of planets across, 53 Star Wars, 260–61 Stoermer, Eugene, 135 Struve, Otto, 15, 18–19, 25, 32, 47–48 sulfuric acid, 173 Sun, 31, 73, 87 birth of, 2, 31, 238 Dyson spheres for capturing energy of, 104, 105 in early cosmology, 78–82 Earth’s distance from, 83, 86 end of life on Earth caused by, 7, 31–32, 75–77, 159, 180–83 faint young Sun problem, 173–75 heliocentrism and, 79–82 orbit of, 95 shell of light surrounding, 237–38 as telescope, 35–37 Sun-like stars, 18, 50, 55, 201, 228, 230, 238, 256, 257 supernovae, 30, 88 Swarthmore College, 52 systemic, 71 Systemic Console, 54, 65 Tau Ceti, 10–11 technological civilizations, 29, 32, 104–5 emergence of, 21–22 longevity of, 22–25, 38–39, 41, 42 technological progress, 136, 183 Urey on, 101–3 and visibility of communication, 42–43 technological singularity, 43–44 tectonic plates, 30, 105, 111, 128, 140, 144, 169, 172, 176, 179, 229 telescopes, 34–36, 51, 61, 99, 170–71, 199, 201–4, 206, 208, 211–12, 223 active optics in, 204–6, 208 Allen Array, 12–14, 41, 42 ATLAST, 198, 203, 230 Automated Planet Finder, 61, 70, 114 ExoplanetSat, 256–57 Galileo’s use of, 81–82, 210 Gemini, 199–200, 203 in Great Observatories program, 192, 197, 209 Hubble, 189–93, 195, 197–99, 205–7, 209, 218–19, 226 James Webb (JWST), 193–99, 202–4, 209, 215, 216, 218, 220, 225, 262 Kasting and, 152–54 Kepler, 13–14, 53–54, 56, 62, 71–73, 98, 108–9, 166, 201, 225, 229–30, 263 mEarth Project, 228–29 Sun as, 35–37 Terrestrial Planet Finders, see Terrestrial Planet Finders see also observatories Teller, Edward, 101 temperature-pressure profile, 157–58 Terrestrial Planet Finders (TPFs), 165–67, 184, 194, 196–98, 214–35, 241, 242, 263 coronagraphic, 217–22, 224, 231, 249 interferometer concept for, 213–14, 216, 231 Seager’s work with, 225–28, 232–35, 249–53, 255–58, 262 starshade (occulter) concept for, 220–21, 225 TESS (Transiting Exoplanet Survey Satellite), 229–30 Thales, 77–79, 238 Thébault, Philippe, 97 thermodynamic disequilibrium, 168–69 Thoreau, Henry, 254 Time, 52 time, deep, 145–46 time capsule, 100–103 Todd, David Peck, 114 Toronto Sun, 74 transits, 53, 56, 84–86, 114–20, 204, 229–30, 251, 263 Traub, Wesley, 217–19, 221–25, 235 travel, interstellar, 44–45, 100–101 tropopause, 158–59 Tsiolkovsky, Konstantin, 186–87, 199, 225, 231 Turner, Edwin, 249–50 2063 A.D., 100–103 universe: Big Bang and, 89–91 evolution of, 88–89 expansion of, 87–90 inflation of, 89–92 recombination in, 248, 249 smoothness of, 89 universes, parallel, 90–91 University of California, 113 University of California, Berkeley: Miller Institute for Basic Research in Science, 48, 74 Radio Astronomy Laboratory, 12 University of California, Santa Cruz, 107–8 University of Vermont, 74–75 Uranus, 109–10 Urey, Harold, 15, 19 2063 A.D. entry of, 101–3 Utt, James B., 101 Valencia, Diana, 259 van de Kamp, Peter, 52–53 Venera 13, 50 Venus, 19, 49–50, 54, 87, 109, 154, 155, 179, 239 atmosphere of, 116, 159–60 climate of, 158–59 Galileo’s study of, 81–82 Kepler’s study of, 83–84 Laughlin’s valuation of, 73 transits of, 83–86, 114–20 water on, 28, 171–72, 179 Vogt, Steve, 55, 58–64, 66–70 Von Braun, Wernher, 1, 151, 186 Voyager missions, 35, 239–42 image of Earth from, 239–42 phonograph records on, 240 Walden (Thoreau), 254 Walden Pond, 254 Walker, James, 176–79, 181 water, 157, 170–71 on Earth, 3, 30, 158–61, 174, 177–80, 182 on Mars, 28, 179 on Venus, 28, 171–72, 179 Wevrick, Mike, 244–49, 251–56, 264 illness and death of, 253–56, 264, 265 Seager’s marriage to, 249 Whipple, Fred, 100 Whitfield, Michael, 181–82 Whitmire, Dan, 155–56 Wiktorowicz, Sloane, 115–19 Wolfe, Tom, 1 world government, 102 Wright, Orville and Wilbur, 186 Zachary, Pavl, 117–18

pages: 677 words: 206,548

Future Crimes: Everything Is Connected, Everyone Is Vulnerable and What We Can Do About It by Marc Goodman


23andMe, 3D printing, active measures, additive manufacturing, Affordable Care Act / Obamacare, Airbnb, airport security, Albert Einstein, algorithmic trading, artificial general intelligence, Asilomar, Asilomar Conference on Recombinant DNA, augmented reality, autonomous vehicles, Baxter: Rethink Robotics, Bill Joy: nanobots, bitcoin, Black Swan, blockchain, borderless world, Brian Krebs, business process, butterfly effect, call centre, Chelsea Manning, cloud computing, cognitive dissonance, computer vision, connected car, corporate governance, crowdsourcing, cryptocurrency, data acquisition, data is the new oil, Dean Kamen, disintermediation, don't be evil, double helix, Downton Abbey, drone strike, Edward Snowden, Elon Musk, Erik Brynjolfsson, Filter Bubble, Firefox, Flash crash, future of work, game design, Google Chrome, Google Earth, Google Glasses, Gordon Gekko, high net worth, High speed trading, hive mind, Howard Rheingold, hypertext link, illegal immigration, impulse control, industrial robot, Intergovernmental Panel on Climate Change (IPCC), Internet of things, Jaron Lanier, Jeff Bezos, job automation, John Harrison: Longitude, John Markoff, Jony Ive, Julian Assange, Kevin Kelly, Khan Academy, Kickstarter, knowledge worker, Kuwabatake Sanjuro: assassination market, Law of Accelerating Returns, Lean Startup, license plate recognition, lifelogging, litecoin, M-Pesa, Mark Zuckerberg, Marshall McLuhan, Menlo Park, Metcalfe’s law, mobile money, more computing power than Apollo, move fast and break things, move fast and break things, Nate Silver, national security letter, natural language processing, obamacare, Occupy movement, Oculus Rift, off grid, offshore financial centre, optical character recognition, Parag Khanna, pattern recognition, peer-to-peer, personalized medicine, Peter H. Diamandis: Planetary Resources, Peter Thiel, pre–internet, RAND corporation, ransomware, Ray Kurzweil, refrigerator car, RFID, ride hailing / ride sharing, Rodney Brooks, Satoshi Nakamoto, Second Machine Age, security theater, self-driving car, shareholder value, Silicon Valley, Silicon Valley startup, Skype, smart cities, smart grid, smart meter, Snapchat, social graph, software as a service, speech recognition, stealth mode startup, Stephen Hawking, Steve Jobs, Steve Wozniak, strong AI, Stuxnet, supply-chain management, technological singularity, telepresence, telepresence robot, Tesla Model S, The Future of Employment, The Wisdom of Crowds, Tim Cook: Apple, trade route, uranium enrichment, Wall-E, Watson beat the top human players on Jeopardy!, Wave and Pay, We are Anonymous. We are Legion, web application, Westphalian system, WikiLeaks, Y Combinator, zero day

For man holds in his mortal hands the power to abolish all forms of human poverty and all forms of human life. JOHN F. KENNEDY Though the space shuttle program has ended, much research and activity in the field of space science continues, particularly with private companies like Elon Musk’s SpaceX and Richard Branson’s Virgin Galactic commercializing space transportation. Another space company, Planetary Resources, founded in 2012 by Peter Diamandis and Eric Anderson, intends to bring the natural resources of space to within humanity’s reach by landing robots on asteroids and mining them for raw materials, using ultralow-cost 3-D printed spacecraft. Though it may be difficult to fathom, criminals and terrorists alike will attempt to harness space technologies to their advantage. Just as nobody foresaw a terrorist hijacking or the need for air marshals when the Wright brothers first launched their plane at Kitty Hawk, so too does it seem nigh impossible to ponder the need for space marshals.

The prize was the fundamental kindling, the thing that sparked the innovation that solved the problem and helped create today’s aviation industry. In 1996, the physician, space enthusiast, and serial entrepreneur Peter Diamandis took up the Orteig mantle and created the XPRIZE Foundation, a nonprofit organization that designs and manages public competitions intended to encourage technological development for the betterment of mankind. Perhaps it is time for such a competition in cyber security. According to Diamandis, “An XPRIZE is a highly leveraged, incentivized prize competition that pushes the limits of what’s possible to change the world for the better. It captures the world’s imagination and inspires others to reach for similar goals, spurring innovation and accelerating the rate of positive change.” The first competition Diamandis ever announced was the $10 million Ansari XPRIZE, which challenged teams to launch a manned-spaceship past the Karman Line (100 km altitude) before safely returning to Earth.

In the end, individual gamers may hold the potential to make significant breakthroughs in cyber security, doing it for no other reason than that they enjoy playing the game. Others will be motivated by their ability to solve real-world problems and helping their fellow man. For those that find neither appealing, there’s always cold hard cash. Eye on the Prize: Incentive Competitions for Global Security The day before something becomes a breakthrough, it’s a crazy idea. PETER DIAMANDIS Prizes have a way of focusing the mind. Just ask the throngs who show up for a chance at the Mega Millions lottery jackpot. But prizes can also be the spark that produces a revolutionary solution to an intractable problem. Such was the case when the British Parliament established the Longitude Prize in 1714 in an effort to help with maritime navigation in order to ensure the “safety and quickness of voyages, the preservation of ships, and the lives of men.”

Frugal Innovation: How to Do Better With Less by Jaideep Prabhu Navi Radjou


3D printing, additive manufacturing, Affordable Care Act / Obamacare, Airbnb, Albert Einstein, barriers to entry, Baxter: Rethink Robotics, Bretton Woods, business climate, business process, call centre, Capital in the Twenty-First Century by Thomas Piketty, carbon footprint, cloud computing, collaborative consumption, collaborative economy, Computer Numeric Control, connected car, corporate social responsibility, creative destruction, crowdsourcing, Elon Musk, financial exclusion, financial innovation, global supply chain, income inequality, industrial robot, intangible asset, Internet of things, job satisfaction, Khan Academy, Kickstarter, late fees, Lean Startup, low cost carrier, M-Pesa, Mahatma Gandhi, megacity, minimum viable product, more computing power than Apollo, new economy, payday loans, peer-to-peer lending, Peter H. Diamandis: Planetary Resources, precision agriculture, race to the bottom, reshoring, ride hailing / ride sharing, risk tolerance, Ronald Coase, self-driving car, shareholder value, sharing economy, Silicon Valley, Silicon Valley startup, six sigma, smart grid, smart meter, software as a service, Steve Jobs, supply-chain management, TaskRabbit, The Fortune at the Bottom of the Pyramid, The Nature of the Firm, transaction costs, unbanked and underbanked, underbanked, women in the workforce, X Prize, yield management, Zipcar

Giannuzzi now wants Tarkett “to become the industry benchmark for achieving high standards in sustainability”. In 2013, it became one of the first global companies to join the “Circular Economy 100” programme. Initiated by the Ellen MacArthur Foundation, this programme regroups over 100 companies committed to supporting the development of a sustainable economic growth model based on the reuse of materials and the conservation of planetary resources.1 By 2020, Tarkett aims to use 75% of renewable and recycled materials, eliminate industrial waste going to landfill, make sure that all flooring products are made from phthalate-free plasticisers and have low TVOC emissions, and double the 2010 volume of collected post-installation and post-consumer products. Tarkett’s story is remarkable for touching on so many aspects of frugal sustainability.

Today the entrepreneurial spirit of your very own employees, customers, and partners – empowered by new technologies – can literally change the world. X PRIZE has proven the value of jugaad by leveraging this bottom-up approach of “better, faster, cheaper” to the point of sending a man into space for a fraction of what NASA spends. This compelling new book, Jugaad Innovation, articulates how you can start to accomplish amazing things on a shoestring. It is a vital read.’ – Peter H. Diamandis, Founder and Chairman, X PRIZE Foundation ‘Jugaad Innovation throws cold water in the faces of CEOs, reminding them of the immense power of grassroots, do-it-yourself, cheap, quick, simple innovation. This is one of the most important lessons that emerging markets are teaching the West.’ – George F. Colony, CEO, Forrester Research ‘I’ve long argued that the role of business is to make the world a better place.