Path: ccsf.homeunix.org!ccsf.homeunix.org!news1.wakwak.com!nf1.xephion.ne.jp!onion.ish.org!yynet.tama.tokyo.jp!newsfeed.media.kyoto-u.ac.jp!newsfeed.icl.net!newsfeed.fjserv.net!news.maxwell.syr.edu!postnews1.google.com!not-for-mail From: selftrans@yandex.ru (Sergey Karavashkin) Newsgroups: sci.physics,sci.physics.electromag,alt.sci.physics.new-theories,fj.sci.matter,sci.physics.relativity Subject: Gradient of potential function of dynamic field Date: 1 Feb 2004 14:35:23 -0800 Organization: http://groups.google.com Lines: 28 Message-ID: NNTP-Posting-Host: 195.177.112.246 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8bit X-Trace: posting.google.com 1075674923 29672 127.0.0.1 (1 Feb 2004 22:35:23 GMT) X-Complaints-To: groups-abuse@google.com NNTP-Posting-Date: Sun, 1 Feb 2004 22:35:23 +0000 (UTC) Xref: ccsf.homeunix.org fj.sci.matter:79 Dear Colleagues, We open the new volume 4 (2004), issue 1 of our journal "SELF Transactions", publishing a new paper " On gradient of potential function of dynamic field " *Abstract* We study the gradient of potential function of dynamic field and show that in dynamic fields the gradient of function divides into coordinate-dependent and time-dependent parts. We will show the standard expression connecting the electric field strength with vector and scalar potentials to be the consequence of this division of gradient in dynamic fields. Due to this, curl of gradient of potential function is not zero. Please enjoy reading full text: http://angelfire.lycos.com/la3/selftrans/v4_1/contents4.html#grad I hope, it will be interesting for many of you, and look forward to hear your opinion. Sergey.