Michio Kaku and Jennifer Thompson
Beyond Einstein
The Cosmic Quest for the Theory of the Universe
(New York: Random House, 1995, revised ed.)
contents | Four Forces | Part I | Two opposites | Quantum | Part II |Part III | conclusion
What is all the fuss about String Theory?
" new mathematics of breathtaking beauty and elegance."
"we are finally closing in on a unified field theory."
"a new understanding of what time and space really are."
Edward Witten, Princeton
"revise our understanding of the nature of matter."
"they are much too small to be observed (They are about 100 billion billion times smaller than a proton.)"
"our measuring devices are too crude to see these tiny strings."
"All particles are just different vibratory resonances of vibrating strings."
pp. 3-5.
"matter consists of particles that are different modes of vibration of the string....the 'music' created by the string is matter itself."
p. 6.
contents | Four Forces | Part I | Quantum | Part II |Part III | conclusion
Four Forces
The hydrogen atom is a proton surrounded by an electron
Force incompatibility
"It's as if nature created someone with two hands, with the right hand looking entirely different and functioning totally independently from the left hand."
"It was a puzzle; they could not believe that nature could function in such a bizarre fashion."
p.10.
II. Supersymmetry and Superstrings
III. Beyond the Fourth Dimension
"According to Einstein's theory, the universe began 10-20 billion years ago in a gigantic explosion called the Big Bang.... concentrated into a super dense ball, which exploded violently, creating our current expanding universe."
p.11.
"According to superstrings, the universe originally existed in ten dimensions..."
"The cracking of the ten-dimensional universe into two pieces."
p. 12.
"The only way to detect dark matter (invisible material) is by its weight: it has no other known interaction with other forms of matter ....there may be more dark matter than ordinary matter."
p. 13.
Instruments do not exist with sufficient energy and size to test the superstring theories predictions and this has led skeptics to argue that, as a theory of everything, there exists nothing to prove superstring theory. Supporters of string theory retort that no experimental evidence thus far has refuted the theories predictions.
14-16.
contents | Four Forces | Part I | Part II |Part III | conclusion
| Sir Isaac Newton differs from Werner Heisenberg & Erwin Schrodinger | |
| Cosmic gravitational attraction | subatomic particles and the uncertainty of motion and position |
"Moreover, the mathematics and principles required for quantum mechanics seem dissimilar to Einstein's general theory of relativity, which describes space warps, black holes and the Big Bang.
"With the developments of the unified field theory, however, it now becomes possible to assemble these disjointed pieces and view the whole as more than just the sum of its parts."
Isaac Newton, and his discovery of the universal law of gravitation, easily the most significant development in... human history."
p. 17
Feynman's lecture on planetary motion discussed gravity.
The planets move about the sun and their satellites move about their respective planets due to gravity.
"Perhaps, Newton thought, the moon is continuously falling, guided by the same laws that make a rock fall to the earth, but the moon never crashes into the earth because the earth's receding curvature cancels the falling of the moon. In his masterpiece, Principia, Newton wrote down the laws that govern the motion of satellites orbiting the earth and planets orbiting the sun."
"the first in the history of science, uniting the laws of heaven and earth."
pp. 18-19.
contents | Four Forces | Part I | Two opposites | Quantum | Part II |Part III | conclusion
The Quantum Puzzle
"in many ways, these two theories appear to be opposites. General relativity concerns the cosmic motions of galaxies and the universe, while quantum mechanics probes the subatomic world.
Relativity is primarily a theory of force fields that continuously fill up space.
Quantum mechanics, by contrast, is primarily a theory of atomic matter, which travels much slower than the speed of light.
"In the world of quantum mechanics, a force field only appears to fill up all space smoothly and continuously. If we could examine it closely, we would find that it actually is quantized into discrete units. Light for example, consists of tiny packets of energy called quanta, or photons."
p. 37.
the quanta, or light-quantum exists opposite to relativity
"Neither theory in itself provides a satisfactory description of nature. . . .Nor is quantum mechanics satisfactory without relativity; quantum mechanics can be used to calculate only the behavior of atoms, not the large scale behavior of galaxies and the expanding universe."
"Merging these two theories. . . has consumed the herculean efforts of scores of theoretical physicists for the past half century. Only in the last few years have physicists finally formulated, with the help of superstring theory, a possible synthesis. . . . "
p. 37.
"Not only were the personal destinies of these two men linked, but their scientific creations were also intimately related.".
| macrocosm | microcosm | |
 |
 |
|
| Albert Einstein, the photoelectric effect | Werner Heisenberg, uncertainty principle |
"In posing these questions, Heisenberg and his colleagues created quantum mechanics."
p. 36.
contents | Four Forces | Part I | Quantum | Part II |Part III | conclusion
II. Supersymmetry and Superstrings
6. The Birth of Superstring Theory, (1968)
"Nowhere else do we find a theory that was proposed as the solution to the wrong problem, abandoned for over a decade and resurrected as a theory of the universe."
Chew's theory required on a mathematical theory of colliding particles, called "S-matrix theory" and so rigorously and restrictively applied to the data, that only a single outcome was possible.
pp. 81-82
"According to this theory , the infinite variety of 'elementary particles'... found in nature are simply different resonances of the same string, with no particle any more fundamental than any other."
The superstring theory, then, incorporates the best features of both the s-matrix theory and the quantum field theory because it is based on a strikingly different physical picture."
p. 82
Leonhard Euler's Beta function, ß∫, was a beautiful conceptual thing because "they found that it automatically satisfied almost all of Chew's S-matrix postulates."
"an overnight sensation in the world of physics."
p. 83
"The Mobius strip represent the geometry of the single-loop"
p. 91
Superstring theory lost favor around 1974.
p. 94
"There are a few other rare occasions in the history of science when an apparent defect was found to be a tremendous asset. For example, in 1928, Alexander Fleming found that his cultured dishes of staphylococcus bacteria colonies could be destroyed if they were accidentally contaminated by certain bread molds."
p. 98
contents | Four Forces | Part I | Part II |Part III | conclusion
7. Symmetry: The Missing Link
What is beauty?
8. Supersymmetry
"But trying to answer the question posed by nature seemed more focused and more fun." John Schwartz, Cal. Tech.
"All objects have spin or angular momentum -- everything from galaxies to subatomic particles."
contents | Four Forces | Part I | Part II |Part III | conclusion
III. Beyond the Fourth Dimension
9. Before the Big Bang
"Every society has its mythology about the origins of time."
the expanding universe postulated by Einstein in 1917, who invented the cosmological constant to counteract the expansive predications of his equations. "his greatest mistake"
1929, Edwin Hubble found evidence in the red shift or Doppler shift of light coming from distant stars in galaxies far beyond the Milky Way suggesting the expansion of the universe.
"Hubble found that the farther a galaxy is from the earth, the faster it was traveling away from the earth."
p. 130
"Why is the night sky dark?" This problem is solved by the "red shift."
p. 131.
Mathematically predicted by the general theory of relativity, 1917 & confirmed by Edwin Hubble, 1929.
At the beginning of time when the heat of the universe was immense, its size was miniscule (the size of a neutron) and density infinite, their was perfect symmetry, all four forces of the universe where united into one.
"united in one coherent force."
"Three minutes after the creation stable nuclei began to form.
Three hundred thousand years after the big bang, the first atoms were born.
...space was actually opaque, like a dense fog."
p.133.
"the breakdown of the ten dimensional fabric of spacetime."
p.142.
contents | Four Forces | Part I | Quantum | Part II |Part III | conclusion
10. The Mystery of Dark Matter
" One of the greatest achievements of twentieth century science was the determination of the chemical elements of the universe. WIth only a little over one hundred elements scientists could explain the trillions upon trillions of possible forms of matter, from DNA to animals to exploding stars."
pp. 143-44.
"The universe was made of atoms and their subatomic constituents. That was the final word in physics."
p. 144.
except that now it is thought that 90% of the universe is made of particles (invisible) of "dark matter."
p. 144.
If Newton's law of gravity is accurate to intergalactic distances, there must exist, unseen "dark Matter." Fritz Zwicky
p. 145.
contents | Four Forces | Part I | Quantum | Part II |Part III | conclusion
"incredibly tiny vibrating objects, much too small...."
According to this theory, the vibrations left in the wake of these . . .cosmic strings are the gigantic galactic clusters we see in the heavens, including our own."
p. 154.
Announced the discovery of a giant wall of galaxies stretching about 500 million light years across."
April 1992 -- "Careful analysis showed that the cosmic microwave background radiation was not so uniform and that tiny irregularities showed up that were too small to be detected by previous experiments. Photos of these irregularities were given to reporters, with the tongue-in-cheek statement that they were gazing at the face of God.
According to the revised theory, these small anomalies in the microwave background radiation existed 300,000 years after the Big Bang and grew in size over the next billion years, until they caused galaxies to clump in space....until they gradually became the clumps of galaxies we see today."
p. 157.
Our minds, which conceptualize objects in three dimensions, cannot fully grasp higher-dimensional objects. Even physicists and mathematicians, who regularly handle higher dimensional objects in their research, treat these objects with abstract mathematics rather than trying to visualize them."
p. 167.
A cube would unravel into six equal squares to a two dimensional observer.
p. 167
contents | Four Forces | Part I | Quantum | Part II |Part III | conclusion
Conclusion
"We are finding that nature uses more sophisticated but simpler mechanisms than we originally thought to build the universe."
p. 193.
"nature seems much more coherent than before."
p. 193.
"Fortunately technological progress proceeds geometrically (exponentially). However, our brains cannot comprehend geometric growth...That is why science will always be stranger than science fiction."
p. 200.
contents | Four Forces | Part I | Quantum | Part II |Part III | conclusion
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