Path: ...!weretis.net!feeder9.news.weretis.net!i2pn.org!i2pn2.org!.POSTED!not-for-mail From: clzb93ynxj@att.net (LaurenceClarkCrossen) Newsgroups: sci.physics.relativity Subject: In relativity "s" is for "spin" Date: Fri, 28 Jun 2024 18:29:02 +0000 Organization: novaBBS Message-ID: <218bad07e23f4a46a00f34853e2bcf1d@www.novabbs.com> MIME-Version: 1.0 Content-Type: text/plain; charset=utf-8; format=flowed Content-Transfer-Encoding: 8bit Injection-Info: i2pn2.org; logging-data="1496459"; mail-complaints-to="usenet@i2pn2.org"; posting-account="e/c594/k+DpN5wgh4wNSTzdRTGbv1jGbBBUwvKr4Q3Y"; User-Agent: Rocksolid Light X-Rslight-Site: $2y$10$jjkg/i.JFDwjQREudhp6GuxPl2PcIJafvO2kwgOPrEGQakN5WLRvW X-Spam-Checker-Version: SpamAssassin 4.0.0 X-Rslight-Posting-User: 429c285600844fd6252e8828c51a974f0457e863 Bytes: 2169 Lines: 23 In relativity "s" is for "spin" For everyone's edification, I hereby share relativity explaining how light is affected twice as much as everything else, flouting Galileo & Eotvos. "Are Photons Massless or Massive?" = "Since the photon is a spin-1 particle, according to this new equation, Eg^2= s^2p^2c^2 + mi^2c^4 , it follows that, s = 2 , for the photon. In Section 10, it will become clear when we analysis the motion of star light (electromagnetic waves) that this fact that for a photon we must have, s = 2 , if Newtonian gravitation is to stand-up to the eclipse measurements of the Solar gravitational bending of star light. This fact on its it own—i.e., the fact that for a photon we must have, s = 2 ; explains the missing factor “2” in the gravitational bending of light angle in Newtonian gravitation. We take this as a notable achievement of the theory of the Curved Spacetime Dirac Equations presented in the readings [14]-[16], in that this theory has been able to furnish a missing piece of a great puzzle. It is an achievement in much the same way that Professor Paul Dirac [17] [18]’s equation furnished the puzzle of the gyromagnetic ratio of the electron (see e.g. [16] on how the Dirac equation solved the gyromagnetic ratio of the electron)."