alistair
Aug25-04, 03:11 AM
<jabberwocky><div class="vbmenu_control"><a href="jabberwocky:;" onClick="newWindow=window.open('','usenetCode','toolbar=no, location=no,scrollbars=yes,resizable=yes,status=no ,width=650,height=400'); newWindow.document.write('<HTML><HEAD><TITLE>Usenet ASCII</TITLE></HEAD><BODY topmargin=0 leftmargin=0 BGCOLOR=#F1F1F1><table border=0 width=625><td bgcolor=midnightblue><font color=#F1F1F1>This Usenet message\'s original ASCII form: </font></td></tr><tr><td width=449><br><br><font face=courier><UL><PRE>In general relativity time passes more quickly\nthe further from a large mass one travels.\nWould a vibrating string representing a graviton\nvibrate more quickly and have a greater energy as a result\nof moving further from a large mass such as a star?\nI am asking in case there could be a way such an idea could\nbe applied to help explain anomalously high velocities of\nstars in galaxies, in place of dark matter.\n\n\n</UL></PRE></font></td></tr></table></BODY><HTML>');"> <IMG SRC=/images/buttons/ip.gif BORDER=0 ALIGN=CENTER ALT="View this Usenet post in original ASCII form"> View this Usenet post in original ASCII form </a></div><P></jabberwocky>In general relativity time passes more quickly
the further from a large mass one travels.
Would a vibrating string representing a graviton
vibrate more quickly and have a greater energy as a result
of moving further from a large mass such as a star?
I am asking in case there could be a way such an idea could
be applied to help explain anomalously high velocities of
stars in galaxies, in place of dark matter.
the further from a large mass one travels.
Would a vibrating string representing a graviton
vibrate more quickly and have a greater energy as a result
of moving further from a large mass such as a star?
I am asking in case there could be a way such an idea could
be applied to help explain anomalously high velocities of
stars in galaxies, in place of dark matter.