The Pyramids of Egypt
The Secrets Revealed

Part III

The Power of 99

Hi again all. This time we are going to examine the number 99 and how it relates to the pyramids of Egypt and The Solar System. Earlier we saw how strangely the square root of 2 (1.41421356) x 198 was EXACTLY EQUAL TO the orbital period of Mercury x 10 and then divided by Pi. The orbital period of Merucry is 87.96908 and if we multiply by 10 we get 879.6908 and divided by Pi gvies us 280.014278. The sqaure root of 2 x 2 x 99 gives us 280.014285 (Orbital period: 87.969 098 d (0.240846264 a) or (0.240846 (87.9691 days) both of these check for 99.99998 % accuracy or a virtual certainty. But could I find another one at Giza ?

The first thing I did when I found my new best friend, 99, was to start dividing the bases of the pryamids by 99. 440 which is base of G1 gave us the result of 4.444444444444444 ... very cute and G2 at 411.04 when divided by 99 gave us 4.15191919192. I have been working with the solar system ratio for many years now and I immediately saw that this was very close to the ratio between the year on Earth and the year on Mercury as measured in Earth days. I took the inverse and saw that it was 0.240852472. So how close was it ? Well an earth year is 365.25 days and a year on Mercury is 87.9691. The ratio being 87.9691 / 365.25 and arriving at 0.24084627. This time when we compare the two results we get 0.24084627 / 0.240852472 and we get the ratio match percentage as being 99.997 however if we use an earth year of 365.24 days we get this result. 87.96908 / 365.24 is 0.24085281. This time we have 0.240852472 / 0.24085281 and we get it checking to 99.99986. Again a virtual certainty. So using the measurments of The Giza Pyramids, namely the height of G1 and the base of G2, we have shown how by simply dividing them by 99 we have found atrributes of Mercury. So strangely the height of G1 gives us the length of a year on Mercury and the base of G2 gives us the ratio of a year between Earth and Mercury. Pretty impressive for two random pyramids.

Below see the measured distances for the bases at The Bent Pyramid. Could one of these have meant to have been 361.5975 (361.6) Why ? Well the year of 365.25 / 100 = 3.6525 and times 99 gives us 361.5975 or how about 361.80334 [( Phi + 2) x 100]

I think this, in conjuction with my other work on the solar system, becomes almost conclusive.

Conclusions:

99 times the earth year in days (365.24) divided by the year on Mercury in days (87.96908) = 4.1519133 and times 99 = 411.039 and base of G2
Square root of 2 (1.41421356) x 2 x 99 = 10 x orbital period of Mercury (87.96908) x 10 / Pi = 280.014278 and precise height of The Great Pyramid.

"99 times the earth year in days (365.24) divided by the year on Mercury in days (87.96908) = 4.1519133 and times 99 = 411.039 and base of G2" However this (G2 or 411.04) also equals as we have found elsewhere Phi or 1.6180339887. so therefore what can we find from that. Well how about trying this. Mars semi major axis is 227,939,100 and Mercury's is 57,909,050 and the ratio is 3.93615678. Now if we take the inverse of this we get 1/3.93615678 or 0.254054921. Now if we multiply by 1000 we get 254.054921 and times Phi (1.6180339887) or 411.07. So we have found that G2 which we claim is actually representing Phi when divided by Phi and inversed and multiplied by 1000 gives us the ratio of Mercury to Mars to a perecentage accuracy of (411.04 /1.6180339887) divided into 1 = 0.003936439 and times 1000 and we get 3.9364392485. So 3.93615678 / 3.9364392485 = 99.993%. However 411.07 is 8476.3 inches and here is what we see for G2 from Petrie.

So as you can see it could easily be exactly correct as it really is only out about 0.6 of an inch to the east side.

Cheers
Don Barone
Auguest 13th, 2015