Conceptually, gravity traveling in a superconductor is essentially the same thing as light traveling in the nucleus: it's just energy traveling without resistance through matter. If Frank is right, then these gravity waves are traveling at 1094000 m/s. I bet if we looked hard enough, we'll find experimental results which corroborate the theory; experiments which have already been done where the results are not understood. This would go a long way toward getting the theory accepted.
Craig On Thu, 2010-12-02 at 10:22 -0500, Craig Haynie wrote: > Hello again Frank, > > Check out this reference: > > "It is generally assumed that in free space the velocity of a > high-frequency gravitational wave (HFGW) is the same as that of light > and so the free space wavelength of an HFGW at 3GHz will be ~10cm. Li > and Torr have previously published calculations claiming to show that > gravitational waves propagate inside a superconductor with phase > velocity reduced by ~300× and wavenumber increased by ~300×." > > He's saying that gravity travels at a speed about 1/300th of the speed > of light, inside a superconductor. It sounds a lot like 1,094,000 m/s. > Does your theory predict the speed of gravity in a superconductor? > > http://tinyurl.com/2wcqadk > > http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APCPCS000813000001001305000001&idtype=cvips&gifs=yes&ref=no > > Craig >
