Post by Don Barone on Apr 17, 2016 20:34:38 GMT -5
Hi all in this thread I am going to open our eyes to something I had noticed before but did not feel it was really all that spectacular ... well I feel differently now and here is the opening volley .
Firstly I had chased this value in the wrong direction I felt that the first ratio I am going to show you was related to index of refraction of water ( [ 1.33 ]and it probably is ... we will explore that later) but for now we need to define the fourth root of Pi.
It is simply the square root of the sqaure root of Pi that is square root of Pi = 1.7724538509055160272981674833411
then square root of 1.7724538509055160272981674833411 or 1.3313353638003897127975349179503
Surprisingly it shows up in more places that you would expect.
Here is the first place I got an inkling that what I was finding may have a deeper meaning but as I said I thought it was showing me the refraction of water but it was in fact showing us that our solar system is all about Pi and here it is ...
If we allow Earth equatorial diameter as 1 then Mercury is 4879.4 km / 12,756.28 km = 0.38250963447023740463520712935119
If we allow Earth equatorial diameter as 1 then Venus = 12,103.6 km / 12756.28 = 0.94883461322579937097649157904969
Now let's add these two together ... why ? Well why not and we get:
0.38250963447023740463520712935119 +
0.94883461322579937097649157904969
=============================================
TOTAL = 1.3313442476960367756116987084009
===============================================
4th root of Pi = 1.3313353638003897127975349179503
=================================================
Checks for 1.3313353638003897127975349179503 / 1.3313442476960367756116987084009 = 0.999993 or 99.9993 %
So we have as an opener that Mercury and Venus as a ratio to The Earth = the 4th root of Pi ... now what do you think about those apples ?
And to further complicate matters to it also being the index of refraction of water I give you this ...
"Most people would assume that the refractive index of water is known to a high degree of accuracy. However, as shown in Fig. 1, the published literature reveals significant differences in the values of refractive index of water for a given wavelength. " And the website this is taken from
Cheers and more a bit alter ...
Don
Firstly I had chased this value in the wrong direction I felt that the first ratio I am going to show you was related to index of refraction of water ( [ 1.33 ]and it probably is ... we will explore that later) but for now we need to define the fourth root of Pi.
It is simply the square root of the sqaure root of Pi that is square root of Pi = 1.7724538509055160272981674833411
then square root of 1.7724538509055160272981674833411 or 1.3313353638003897127975349179503
Surprisingly it shows up in more places that you would expect.
Here is the first place I got an inkling that what I was finding may have a deeper meaning but as I said I thought it was showing me the refraction of water but it was in fact showing us that our solar system is all about Pi and here it is ...
If we allow Earth equatorial diameter as 1 then Mercury is 4879.4 km / 12,756.28 km = 0.38250963447023740463520712935119
If we allow Earth equatorial diameter as 1 then Venus = 12,103.6 km / 12756.28 = 0.94883461322579937097649157904969
Now let's add these two together ... why ? Well why not and we get:
0.38250963447023740463520712935119 +
0.94883461322579937097649157904969
=============================================
TOTAL = 1.3313442476960367756116987084009
===============================================
4th root of Pi = 1.3313353638003897127975349179503
=================================================
Checks for 1.3313353638003897127975349179503 / 1.3313442476960367756116987084009 = 0.999993 or 99.9993 %
So we have as an opener that Mercury and Venus as a ratio to The Earth = the 4th root of Pi ... now what do you think about those apples ?
And to further complicate matters to it also being the index of refraction of water I give you this ...
"Most people would assume that the refractive index of water is known to a high degree of accuracy. However, as shown in Fig. 1, the published literature reveals significant differences in the values of refractive index of water for a given wavelength. " And the website this is taken from
Cheers and more a bit alter ...
Don
