CLIP
发表于 2025-3-21 18:35:08
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有法律效应
发表于 2025-3-21 22:39:25
Mathematical Tools, is well-versed in differential geometry need only skim it to absorb the notation, while one whose knowledge stems from a half-remembered course taken years ago will probably need to read it more carefully. Few proofs are given, but most of the omitted arguments are trivial or routine; those which a
松果
发表于 2025-3-22 03:02:03
Further Difficulties and Alternate Approaches,h logically consistent and in agreement with experiment. The previous chapters presented the most widely accepted viewpoint, which culminates in the Lorentz-Dirac equation. There are many motivations and “derivations” of this equation, and the one presented in Chapter 4 is the one which I find most
两栖动物
发表于 2025-3-22 04:47:55
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critic
发表于 2025-3-22 10:43:29
n in the language and spirit of coordinate-free differential geometry. The intended audience is primarily mathematicians who want a bare-bones account of the foundations of electrodynamics written in language with which they are familiar and secondarily physicists who may be curious how their old fr
Stagger
发表于 2025-3-22 14:01:52
Mathematical Tools, years ago will probably need to read it more carefully. Few proofs are given, but most of the omitted arguments are trivial or routine; those which are not are clearly flagged. The ability to fill the gaps, or at least sense how the proofs might go, could be taken as a test as to whether the reader has the background for Chapters 3 and 4.
按等级
发表于 2025-3-22 19:30:01
Further Difficulties and Alternate Approaches,nearly rigorous and convincing. I tried to present the best possible case for the Lorentz-Dirac theory, but it is easy to see why many have serious doubts about that equation. (Others believe it is absolutely fundamental.)
有毛就脱毛
发表于 2025-3-23 00:03:02
Relativistic Electrodynamics and Differential Geometry
美食家
发表于 2025-3-23 04:20:36
Relativistic Electrodynamics and Differential Geometry978-1-4612-4684-8
规范要多
发表于 2025-3-23 06:00:18
Book 1987sts are surprised to learn that the correct equation to describe the motion of a classical charged particle is still a matter of some controversy. The most mentioned candidate is the Lorentz-Dirac equation t . However, it is experimentally unverified, is known to have no physically reasonable soluti