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Overview
In Visions, physicist and author Michio Kaku examines the great scientific revolutions that have dramatically reshaped the twentieth century—the quantum mechanics, biogenetics, and artificial intelligence—and shows how they will change and alter science and the way we live.
The next century will witness more far-reaching scientific revolutions, as we make the transition from unraveling the secrets of nature to becoming masters of nature. We will no longer be passive bystanders to the dance of the universe, but will become creative choreographers of matter, life, and intelligence.
The first section of Visions presents a shocking look at a cyber-world infiltrated by millions of tiny intelligence systems. Part two illustrates how the decoding of DNA's genetic structure will allow humans the "godlike ability to manipulate life almost at will." Finally, VISIONS focuses on the future of quantum physics, in which physicists will perfect new ways to manipulate matter and harness the cosmic energy of the universe.
What makes Michio Kaku's vision of the science of the future so compelling—and so different from the mere forecasts of most thinkers—is that it is based on the groundbreaking research taking place in labs today, as well as the consensus of over 150 of Kaku's scientific colleagues. Science, for all its breathtaking change, evolves slowly; we can accurately predict, asserts Kaku, what the direction of science will be, based on the paths that are being forged today.
A thrilling, unique narrative that brings together the thinking of many of the world's most accomplished scientists to explore the world of the future, Visions is science writing at its best.
Synopsis
In Visions, physicist and author Michio Kaku examines the great scientific revolutions that have dramatically reshaped the twentieth century—the quantum mechanics, biogenetics, and artificial intelligence—and shows how they will change and alter science and the way we live.
The next century will witness more far-reaching scientific revolutions, as we make the transition from unraveling the secrets of nature to becoming masters of nature. We will no longer be passive bystanders to the dance of the universe, but will become creative choreographers of matter, life, and intelligence.
The first section of Visions presents a shocking look at a cyber-world infiltrated by millions of tiny intelligence systems. Part two illustrates how the decoding of DNA's genetic structure will allow humans the "godlike ability to manipulate life almost at will." Finally, VISIONS focuses on the future of quantum physics, in which physicists will perfect new ways to manipulate matter and harness the cosmic energy of the universe.
What makes Michio Kaku's vision of the science of the future so compelling—and so different from the mere forecasts of most thinkers—is that it is based on the groundbreaking research taking place in labs today, as well as the consensus of over 150 of Kaku's scientific colleagues. Science, for all its breathtaking change, evolves slowly; we can accurately predict, asserts Kaku, what the direction of science will be, based on the paths that are being forged today.
A thrilling, unique narrative that brings together the thinking of many of the world's most accomplished scientists to explore the world of the future, Visions is science writing at its best.
Publishers Weekly
Exhibiting a rare clarity of scientific thought and exposition, this brilliant futurist catalogue from the renowned physicist and author of the much-praised Hyperspace (1994) convincingly predicts where the next hundred years of technological advancement will take us. Science, for Kaku, is on the verge of a new age in which the once separate "Three Pillars of Modern Science"quantum physics, computer science and biotechnologywill converge, creating a startling synergy. The outcome will affect us right down to our DNA. We will make a technological and conceptual transition "from being observers of the dance of nature to becoming active choreographers" in a world of seamless human-computer interactions, where damaged, cancer-causing genes are repaired by molecular machines and where cyborgs will grow their own chips. But Kaku moves far beyond the usual futuristic fare of gadgets and gizmos, offering up the hard science principles and soft science social impact of the advances he describes. If there is one flaw here, it is that Kaku writes with a scientist's nearly unbounded optimism for the future. A careful reader will discern moral questions and responsibilities that Kaku fails to address adequately (for instance, whether immortality is in fact a worthy goal). Based in part on interviews with more than 150 scientists, many of them Nobel laureates, the book nevertheless offers a coherent and fully realized picture of our increasingly mediated future lives. It succeeds in drawing a time line for the appearance of everything from "wearable" computers to the tenth dimension, and it does so with clear-sighted analysis and a contagious sense of wonder. (Oct.)
Editorials
Publishers Weekly -
Exhibiting a rare clarity of scientific thought and exposition, this brilliant futurist catalogue from the renowned physicist and author of the much-praised Hyperspace (1994) convincingly predicts where the next hundred years of technological advancement will take us. Science, for Kaku, is on the verge of a new age in which the once separate "Three Pillars of Modern Science"quantum physics, computer science and biotechnologywill converge, creating a startling synergy. The outcome will affect us right down to our DNA. We will make a technological and conceptual transition "from being observers of the dance of nature to becoming active choreographers" in a world of seamless human-computer interactions, where damaged, cancer-causing genes are repaired by molecular machines and where cyborgs will grow their own chips. But Kaku moves far beyond the usual futuristic fare of gadgets and gizmos, offering up the hard science principles and soft science social impact of the advances he describes. If there is one flaw here, it is that Kaku writes with a scientist's nearly unbounded optimism for the future. A careful reader will discern moral questions and responsibilities that Kaku fails to address adequately (for instance, whether immortality is in fact a worthy goal). Based in part on interviews with more than 150 scientists, many of them Nobel laureates, the book nevertheless offers a coherent and fully realized picture of our increasingly mediated future lives. It succeeds in drawing a time line for the appearance of everything from "wearable" computers to the tenth dimension, and it does so with clear-sighted analysis and a contagious sense of wonder. (Oct.)Kirkus Reviews
Here's another entry in the game of predicting what science and technology will come up with after the turn of the millennium, this one from a theoretical physicist.Kaku, author of Hyperspace (1994), defines his central thesis in a few words: We humans are about to make the transition "from being passive observers of Nature to active choreographers of Nature." He forecasts major breakthroughs in three specific areas: computer science, molecular biology, and quantum physics. While all three of these disciplines have already had a significant impact on our daily lives, Kaku finds a broad consensus among scientists, many of whom believe that everything we have seen so far is merely a prelude to what lies in store. In particular, while the development to date of these areas of science has been marked by extreme specialization, the 21st century is likely to be an age of synergy, in which each area builds on the discoveries of the others. On a 20-year time frame, computer chips will become smaller, cheaper, and almost ubiquitous; genetic therapy will have cured many diseases, possibly including most cancers. But beyond that point, it appears that fundamental bottlenecks in both computer science and molecular biology will necessitate new breakthroughs, many of which will derive from quantum physics. This may fuel a new round of technological innovations, among them artificial intelligence (a robot in every home), tailor-made organisms (new foods and medicines), nanotechnology, and new energy sources. Kaku does not ignore the potential downside of these developments, examining such nightmare scenarios as robot killing machines fighting future wars and a revived eugenics movement. But if all goes well, says Kaku, we may well develop into a true planetary society, the first step toward making the entire universe our home.
With this fascinating volume, Kaku positions himself as a worthy successor to the late Carl Sagan as a spokesman for the potential of science to revolutionize our lives.