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How We Got to Now

How We Got to Now

Six Innovations That Made the Modern World
by Steven Johnson 2014 304 pages
4.11
14k+ ratings
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Key Takeaways

1. Innovation Emerges from Networks, Not Lone Geniuses

"Edison invented the lightbulb the way Steve Jobs invented the MP3 player: he wasn't the first, but he was the first to make something that took off in the marketplace."

Collective genius. The myth of the lone inventor obscures the reality that most innovations emerge from networks of people and ideas. Edison's lightbulb, for instance, was the culmination of decades of work by multiple inventors. His true genius lay in assembling a diverse team of "muckers" at Menlo Park, creating an environment that fostered creativity and experimentation.

Building on predecessors. Innovation rarely springs from a vacuum. Instead, it often involves improving existing ideas or combining them in novel ways. The lightbulb required advances in glass manufacturing, vacuum technology, and electricity. Similarly, the computer revolution built on centuries of progress in mathematics, logic, and engineering.

Collaborative ecosystems. Modern innovation thrives in environments that encourage cross-pollination of ideas. Silicon Valley, Bell Labs, and academic research centers exemplify how bringing together diverse expertise can lead to breakthrough innovations. This networked approach to innovation challenges traditional notions of intellectual property and emphasizes the importance of open standards and information sharing.

2. The Adjacent Possible: How Ideas Build on Each Other

"We take the tools and metaphors and concepts and scientific understanding of our time, and we remix them into something new."

Expanding possibilities. The "adjacent possible" refers to the set of innovations that are within reach at any given moment, based on existing knowledge and technology. As new discoveries are made, they open doors to further innovations, creating a cascading effect of progress.

Historical context. Innovations that seem obvious in hindsight were often unimaginable before certain preconditions were met. For example:

  • The telescope required advances in lens-making and a cultural shift towards empirical observation
  • The computer necessitated developments in electronics, logic, and mathematics
  • The Internet built upon existing telecommunications infrastructure

Combining disciplines. Many groundbreaking ideas emerge from the intersection of different fields. Ada Lovelace's vision of computers as more than just calculators came from her unique blend of mathematical and poetic thinking. Similarly, the invention of flash photography arose from combining chemistry and optics.

3. Hummingbird Effects: Unexpected Consequences of Innovation

"An innovation, or cluster of innovations, in one field ends up triggering changes that seem to belong to a different domain altogether."

Ripple effects. Innovations often have far-reaching consequences beyond their intended purpose. These "hummingbird effects" can reshape society in profound and unexpected ways:

  • The invention of glass lenses led to microscopes and telescopes, revolutionizing science
  • Artificial refrigeration enabled the growth of cities in hot climates
  • The phonograph and radio transformed the music industry and popular culture

Unintended applications. Many technologies find their most impactful uses in areas their inventors never imagined:

  • Lasers, originally seen as a potential weapon, became crucial for communications and medicine
  • The World Wide Web, designed for sharing scientific data, became a global platform for commerce and social interaction

Social transformations. Technological innovations can drive significant changes in human behavior and social structures. For example, artificial lighting altered sleep patterns and extended productive hours, while social media has reshaped how we form and maintain relationships.

4. Glass: The Material that Shaped Modern Vision

"No material on Earth mattered more to those conceptual breakthroughs than glass."

Expanding perception. Glass played a crucial role in extending human vision, both literally and figuratively. The development of lenses led to:

  • Spectacles, which extended literacy and productive years
  • Microscopes, revealing the world of cells and microorganisms
  • Telescopes, transforming our understanding of the cosmos

Information revolution. Beyond optics, glass enabled other key technologies:

  • Vacuum tubes, essential for early electronics and computing
  • Fiber optic cables, the backbone of modern telecommunications
  • Computer screens and smartphone displays

Cultural impact. The widespread availability of mirrors changed how humans perceived themselves and others, contributing to the rise of self-portraiture in art and influencing ideas about individuality and identity.

5. Cold: How Artificial Refrigeration Transformed Society

"Just two centuries after Frederic Tudor started thinking about shipping ice to Savannah, our mastery of cold is helping to reorganize settlement patterns all over the planet and bring millions of new babies into the world."

Reshaping geography. The ability to create and maintain cold environments has had profound effects on human settlement and commerce:

  • Enabling the growth of cities in hot climates
  • Allowing for long-distance food transportation
  • Creating new industries like frozen food

Public health revolution. Refrigeration dramatically improved food safety and medical capabilities:

  • Reducing foodborne illnesses
  • Enabling the storage and transport of vaccines and medicines
  • Facilitating organ transplants and other medical procedures

Demographic shifts. The widespread adoption of air conditioning contributed to significant population movements, particularly in the United States:

  • Growth of Sun Belt cities
  • Changes in political power dynamics
  • New patterns of energy consumption and environmental challenges

6. Sound: From Cave Echoes to Digital Revolution

"The digital samples of SIGSALY traveled across the Atlantic courtesy of another communications breakthrough that Bell Labs helped create: radio."

Evolving capture. The history of sound technology reflects humanity's quest to preserve and transmit the ephemeral:

  • From cave acoustics to phonographs
  • Analog to digital recording
  • The development of high-fidelity audio systems

Communication revolution. Advances in sound technology dramatically changed how humans interact:

  • Telephone networks connecting the globe
  • Radio broadcasting reshaping culture and politics
  • Digital audio enabling new forms of music creation and distribution

Information security. Sound technology played a crucial role in wartime communications:

  • Development of secure voice transmission systems like SIGSALY
  • Laying the groundwork for modern digital encryption
  • Influencing the birth of computer science and information theory

7. Clean: The Hidden Infrastructure of Urban Life

"We celebrate the things they make possible—towering skyscrapers and ever-more-powerful computers—but we don't celebrate the sewers and the clean rooms themselves."

Urban transformation. The development of effective sanitation systems was crucial for the growth of modern cities:

  • Enabling higher population densities
  • Dramatically reducing waterborne diseases
  • Creating new engineering challenges and solutions

Public health revolution. Understanding and combating microorganisms led to massive improvements in human health:

  • Germ theory changing medical practices
  • Water treatment systems saving millions of lives
  • Development of vaccines and antibiotics

Invisible innovations. Many of the most impactful advances in cleanliness are hidden from view:

  • Sewer systems beneath cities
  • Water treatment plants on urban peripheries
  • Clean rooms enabling modern electronics manufacturing

8. Time: How Measuring Minutes Changed Everything

"Edison invented technology; he invented an entire system for inventing, a system that would come to dominate twentieth-century industry."

Precision and progress. Increasingly accurate time measurement has been a driving force in scientific and technological advancement:

  • Navigation and global exploration
  • Industrial revolution and factory systems
  • Modern computing and telecommunications

Cultural shifts. Changes in timekeeping have profoundly affected human behavior and social organization:

  • From natural rhythms to clock-driven schedules
  • Standardization of time zones
  • The concept of "productivity" in work and leisure

Atomic precision. The development of atomic clocks has enabled technologies that shape modern life:

  • GPS navigation systems
  • Synchronization of global financial markets
  • Advancements in space exploration

9. Light: Illuminating Progress from Candles to Lasers

"Today we can use light to create an artificial sun on Earth, if only for a split-second."

Extending human activity. Artificial lighting has dramatically expanded the hours available for work, study, and leisure:

  • From candles to gas lamps to electric lights
  • Changing sleep patterns and social behaviors
  • Enabling 24/7 economic activity

Information carriers. Light-based technologies have revolutionized communication and data processing:

  • Fiber optic networks enabling global internet
  • Laser-based data storage (CDs, DVDs)
  • Optical computing research

Scientific tool. Manipulating light has opened new frontiers in science and technology:

  • Spectroscopy for analyzing materials
  • Lasers in medicine and manufacturing
  • Photonics in quantum computing research

10. Time Travelers: Visionaries Who Saw Beyond Their Era

"Better to challenge those intuitions, explore uncharted terrain, both literal and figurative. Better to make new connections than remain comfortably situated in the same routine."

Interdisciplinary thinking. Many revolutionary innovators operated at the intersections of different fields:

  • Ada Lovelace combining mathematics and poetry
  • Leonardo da Vinci blending art and engineering
  • Steve Jobs integrating technology and design

Challenging assumptions. Time travelers often questioned prevailing wisdom and explored unconventional ideas:

  • Galileo's observations contradicting established astronomical theories
  • Darwin's theory of evolution challenging religious doctrines
  • Einstein's relativity upending Newtonian physics

Creating new paradigms. These visionaries not only saw beyond their time but often created entirely new ways of thinking:

  • Babbage and Lovelace envisioning programmable computers
  • Tim Berners-Lee conceiving the World Wide Web
  • Satya Nadella reimagining Microsoft for the cloud era

Last updated:

Review Summary

4.11 out of 5
Average of 14k+ ratings from Goodreads and Amazon.

How We Got to Now receives mostly positive reviews for its fascinating exploration of six technological innovations that shaped the modern world. Readers appreciate Johnson's engaging writing style, interesting historical anecdotes, and ability to draw connections between seemingly unrelated developments. Some criticize the book for lacking depth or feeling rushed in later chapters. Many find it thought-provoking and enjoyable, praising Johnson's insights into the nature of innovation and its unexpected consequences. The book is often compared favorably to the TV series "Connections" and recommended for those interested in the history of technology.

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About the Author

Steven Johnson is a bestselling author of twelve books on science, technology, and innovation. His works explore topics like the history of ideas, urban planning, and pop culture. Johnson hosts the podcast American Innovations and co-created the PBS/BBC series How We Got to Now, based on his book of the same name. His writing style is known for drawing connections between diverse fields and examining the long-term impacts of innovations. Johnson's books have garnered critical acclaim and popularity among readers interested in the intersection of science, history, and culture. He divides his time between California and New York, where he lives with his family.

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