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TL;DR: This thread is a review of the book Our Mathematical Universe.
This thread is a review of Max Tegmark's book Our Mathematical Universe. The thesis of Our Mathematical Universe is that not only does mathematics perfectly describe the universe, the universe is mathematics.. In this thread, I will give a very brief summary of the book, and I will list my takeaways from the book. A takeaway is information in the book that meets both of two criteria: 1# It is something that I did not know before I read the book and 2# It is interesting.
The book Our Mathematical Universe is divided into three parts. The first part is about describing the large things in the universe. The second part is about describing the universe at the atomic and subatomic levels. The third part of the book is about how the universe is mathematical.
The Sun was originally a gas cloud that was rotating or spinning. The core of the gas cloud was composed of hydrogen and helium. The outer parts of the gas cloud were composed of carbon, oxygen, and silicon. The cold parts eventually formed the planets of our solar system. The gas cloud that eventually became the Sun eventually "blew off" the planets. That is why all the planets in our solar system orbit around the Sun in the same direction.
A scientist with the last name Gamow predicted that our universe began with a hot Big Bang, and that plasma once filled all of space. Cold hydrogen gas is transparent and invisible. Hot hydrogen plasma is opaque and glows brightly. This means that when we gave ever farther into space, we should encounter old galaxies nearby, then young galaxies beyond them, then transparent hydrogen gas, then a wall of glowing hydrogen plasma.
Tegmark writes about how in the past, cosmologists were frequently wrong. Tegmark's examples of how cosmologists were frequently wrong in the past are how Aristarchos claimed that the Sun was eighteen times too close, and Hubble claimed that our universe was expanding seven times faster than it is actually expanding. Tegmark asserts that this phase of cosmologists being wrong is over. Tegmark argues that the fact that both the Big Bang nucleosynthesis and cosmic clustering gave the same measurement of the atom density, and the fact that both supernovae Ia and cosmic clustering gave the same measurement of the dark-energy density indicates that cosmologists are far more accurate today than in the past.
I keep losing my internet connection. So I am going to post this now. Then edit it so I know I don't lose anything.
This thread is a review of Max Tegmark's book Our Mathematical Universe. The thesis of Our Mathematical Universe is that not only does mathematics perfectly describe the universe, the universe is mathematics.. In this thread, I will give a very brief summary of the book, and I will list my takeaways from the book. A takeaway is information in the book that meets both of two criteria: 1# It is something that I did not know before I read the book and 2# It is interesting.
The book Our Mathematical Universe is divided into three parts. The first part is about describing the large things in the universe. The second part is about describing the universe at the atomic and subatomic levels. The third part of the book is about how the universe is mathematical.
The Sun was originally a gas cloud that was rotating or spinning. The core of the gas cloud was composed of hydrogen and helium. The outer parts of the gas cloud were composed of carbon, oxygen, and silicon. The cold parts eventually formed the planets of our solar system. The gas cloud that eventually became the Sun eventually "blew off" the planets. That is why all the planets in our solar system orbit around the Sun in the same direction.
A scientist with the last name Gamow predicted that our universe began with a hot Big Bang, and that plasma once filled all of space. Cold hydrogen gas is transparent and invisible. Hot hydrogen plasma is opaque and glows brightly. This means that when we gave ever farther into space, we should encounter old galaxies nearby, then young galaxies beyond them, then transparent hydrogen gas, then a wall of glowing hydrogen plasma.
Tegmark writes about how in the past, cosmologists were frequently wrong. Tegmark's examples of how cosmologists were frequently wrong in the past are how Aristarchos claimed that the Sun was eighteen times too close, and Hubble claimed that our universe was expanding seven times faster than it is actually expanding. Tegmark asserts that this phase of cosmologists being wrong is over. Tegmark argues that the fact that both the Big Bang nucleosynthesis and cosmic clustering gave the same measurement of the atom density, and the fact that both supernovae Ia and cosmic clustering gave the same measurement of the dark-energy density indicates that cosmologists are far more accurate today than in the past.
I keep losing my internet connection. So I am going to post this now. Then edit it so I know I don't lose anything.