Alpha Institute for Advanced Studies

In a message dated 11/04/2013 10:00:38 GMT Daylight Time, writes:

OK, I did not know that the precision of the experiment was so high. We discussed Gravity Probe B in an earlier paper. Bernhard showed me an article some time ago where it was compared with a gravito-magnetic field calculation based on EGR, so the explanations may be not so different but we are using a well defined theory, opposed to EGR.

Horst

Betreff: Precision of Gravity Probe B

This is 0.1 milliarcseconds compared with the oblate value of 2,560 milliarcseconds (2.56 arcseconds) per orbit, and the EGR correction of 2.43 milliarcseconds per orbit. So Gravity Probe B should have picked up the EGR correction easily. I will proceed now to the moon sun EGR correction. I agree that the EGR correction is about a thousandth of the oblate precession, but even so, 2.43 milliarcseconds is 24.3 times larger than the precision advertized for Gravity Probe B. It is already clear that if EGR corrections are applied to any textbook problem, every calculation in cosmology will change, sometimes by orders of magnitude. No scientist should be asked to accept such absurdity, and they evidently do not judging by feedback. It is time for someone of integrity and influence to come out against EGR, perhaps someone who is retired and cannot be sacked or have his / her funding cut. Paul Marmet (Order of Canada) was one such example.

In a message dated 10/04/2013 14:36:31 GMT Daylight Time.

The EGR correction of gravity probe B is only one thousandth of the oblate spheroid value. I do not believe that this is within the experimental precision of the measured value. This seems not to be a suitable experimental disprovement of EGR.
Horst

Verschickt: Di, 9 Apr 2013 2:04 pm
Betreff: 240(9) : Non Observation of EGR by Gravity Probe B.

This note corrects problem 5.8 of Fitzpatrick for the effect of EGR if the latter existed self consistently throughout gravitational physics. It uses the precession of a satellite at 650 km above the earth’s surface, the height of Gravity Probe B. The results show very clearly that Gravity Probe B did not pick up the EGR effect of 2.43 milli arc seconds per orbit calculated in this note. This is a very large effect well within the precision of the Gravity Probe B instruments. It picked up the geodetic effect or Thomas precession of – 6.60 arc seconds per year (many orbits of Gravity probe B) and made a contested claim of picking up a Lenz Thirring effect deep out of the noise and at huge expense.