Summary of Carlo Rovelli's Helgoland
Everest Media
Availability:
Ebook in EPUB format. Available for immediate download after we receive your order
Ebook in EPUB format. Available for immediate download after we receive your order
Publisher:
Everest Media LLC
Everest Media LLC
DRM:
Watermark
Watermark
Publication Year:
2022
2022
ISBN-13:
9798822510630
Description:
Please note: This is a companion version & not the original book.
Sample Book Insights:
#1 Heisenberg was the first to glimpse one of the most vertiginous of Nature’s secrets, and he was twenty-three. He was on the island of Helgoland to immerse himself in the problem with which he was obsessed: the strange behavior of the electrons in atoms.
#2 In the summer of 1925, Heisenberg had the idea that would transform physics. He believed that the most obvious assumptions can be wrong, and that knowledge should be based on observations alone.
#3 Heisenberg’s leap is as daring as it is simple. He attempts to calculate the behavior of the electron using quantities that are observable, instead of the physical variables that were previously used. He succeeds in giving up describing the electron’s movement, and only describes what can be observed.
#4 Heisenberg’s new theory was very simple. The forces were the same as in classical physics, but the variables were replaced by tables of numbers. The equations were the same as those of classical physics, except for one equation that I will discuss later.
Sample Book Insights:
#1 Heisenberg was the first to glimpse one of the most vertiginous of Nature’s secrets, and he was twenty-three. He was on the island of Helgoland to immerse himself in the problem with which he was obsessed: the strange behavior of the electrons in atoms.
#2 In the summer of 1925, Heisenberg had the idea that would transform physics. He believed that the most obvious assumptions can be wrong, and that knowledge should be based on observations alone.
#3 Heisenberg’s leap is as daring as it is simple. He attempts to calculate the behavior of the electron using quantities that are observable, instead of the physical variables that were previously used. He succeeds in giving up describing the electron’s movement, and only describes what can be observed.
#4 Heisenberg’s new theory was very simple. The forces were the same as in classical physics, but the variables were replaced by tables of numbers. The equations were the same as those of classical physics, except for one equation that I will discuss later.
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