ADVENT 280
HALL OF THE GODS Nigel Appleby 1998 Page 114/5 Leo "To the ancient Sumerians, the first age, c. 11,000 BC, and sign of the Zodiac are both Leo, 'the lion', known to them as Ur.Gula. This sign symbolically represented their god Enki, the god of the African lands. In ancient Egypt, Enki was known as Ptah, whose goddess wife Sekhmet was represented with the face of a lioness. As we shall see later, the Sphinx (which I maintain is a lion's body with a human head) is thought to represent the period of Leo which would have coincided with the / Sumerians first epoch."
A T U M 1+2+3+4
THE DEAD SEA SCROLLS J.M. Allegro 1956 Page 150 "However, the idea of the dual messianic office continued at least until the time of the Second Revolt (A.D. 132-5), for the coins of that time speak of El'azar the High Priest, side by side with Shim'on bar Kochebah, the Prince of Israel"
THE DEAD SEA SCROLLS J.M. Allegro 1956 Page 176 An Unknown Source "Eleiazar, son of Eliazar,"
Wednesday 11 September 2013 THE MYSTERIES OF THE SNOWFLAKE Pages 14/15/17/18 Mysteries of the snowflake: The curious world of ... - The Independent › News › Environment › Nature 5 Jan 2013 - Mysteries of the snowflake: The curious world of the ice-crystal experts ... The ice crystals, nestling in the ice clouds as unborn snowflakes, ... Everybody loves snow, right? But not many of us are obsessed, like the scientists who study these icy enigmas. Nicola Gill enters the curious world of 'dendrites' and 'plates' Mathematician and philosopher René Descartes is one of many fine minds through the ages to be fascinated by snowflakes and to ponder how such perfection could be created. While every flake really is a law unto itself, other supposed snow ‘facts’ are not quite so true. The oft-quoted idea that it’s ‘too cold to snow’ is nonsense (it snows at the South Pole where it’s rarely above -40C), and even the apparent truism that snow is white turns out to be slushy logic. Ice crystals are clear, like glass, but when they form a large pile, light is reflected off the surface, bounces around and eventually scatters back out. Since all colours are scattered roughly equally, snow only appears to be white. These, and many other reasons, are why world-renowned snowflake obsessive, California-based Ken Libbrecht, has made it his life’s work to study, photograph and ‘grow’ snowflakes. The author of several beautiful books showcasing his favourite flakes out of the 7,000 he has photographed, he lives and breathes dendrites, rosettes and plates. “There is something magical about snowflakes,” he says from his laboratory in Pasadena. “You don’t often see such complex symmetry in nature and that makes them extraordinary. The whole intriguing structure of a snow crystal simply arises quite literally out of thin air, as it tumbles through the clouds. The way the crystal grows depends on the temperature it is shaped in – a simple enough idea to grasp – but the underlying physics is fiendishly complicated and has remained a puzzle. I spend a lot, and I mean a lot, of time thinking about this.” Inevitably, though, the most common question is, how can Libbrecht be so sure no two snowflakes are ever identical? He likes to tell people that physics has a Zen-like answer, “which is that it depends largely on what you mean by the question. The short answer is that if you consider there’s over a trillion ways you could arrange 15 different books on your bookshelf, then the number of ways of making a complex snowflake is so staggeringly large that, over the history of our planet, I’m confident no two identical flakes have ever fallen. The long answer is more involved – depending on what you mean by ‘alike’ and ‘snowflake’. There could be some extremely small, simple-shaped crystals that looked so alike under a microscope as to be indistinguishable – and if you sifted through enough Arctic snow, where these simple crystals are common, you could probably find a few twins.” The short answer is that if you consider there’s over a trillion ways you could arrange 15 different books on your bookshelf,
Letter frequency - Wikipedia, the free encyclopedia
LOOK AT THE 5FIVES LOOK AT THE 5FIVES LOOK AT THE 5FIVES THE 5FIVES THE 5FIVES LOOK AT THE 5 LOOK AT THE 5 LOOK AT THE 5 THE 5 THE 5
Letter Frequencies in the English Language
THE INDEPENDENT MAGAZINE Wednesday 11 September 2013 Mysteries of the snowflake: The curious world of the ice-crystal experts. Inevitably, though, the most common question is, how can Libbrecht be so sure no two snowflakes are ever identical? He likes to tell people that physics has a Zen-like answer, “which is that it depends largely on what you mean by the question. The short answer is that if you consider there’s over a trillion ways you could arrange 15 different books on your bookshelf, then the number of ways of making a complex snowflake is so staggeringly large that, over the history of our planet, I’m confident no two identical flakes have ever fallen. The long answer is more involved – depending on what you mean by ‘alike’ and ‘snowflake’. There could be some extremely small, simple-shaped crystals that looked so alike under a microscope as to be indistinguishable – and if you sifted through enough Arctic snow, where these simple crystals are common, you could probably find a few twins.” "The short answer is that if you consider there’s over a trillion ways you could arrange 15 different books on your bookshelf,"
SORT OUT THE WHEAT FROM THE CHAFF
Letter Frequencies in the English Language
Why is the Letter E the Most Common Letter in the English ...
LETTER NUMBER FREQUENCIES
LETTERS TRANSPOSED INTO NUMBER REARRANGED IN NUMERICAL ORDER
Letter Frequencies in the English Language
Why is the Letter E the Most Common Letter in the English ... 8 Apr 2018 — The letter makes up 12.702% of the letters in an average text, and is the most commonly-used letter in English. The next most frequently-used ...This is a question I’ve been asking myself ruefully these last few days. The E on my keyboard hasn’t been very coöperative, insisting that I bang it at least a few times for it to make the letter E appear on the screen. This has made me really… appreciate, for wont of a better word, just how often we have to use the letter E. Letter Frequencies in the English Language
CODE DE CODE C+O D+E D+E C+O D+E 9+9+9+9+9 C+O D+E D+E C+O D+E CODE DE CODE
SACRED NUMBER THE SECRET QUALITIES OF QUANTITIES Miranda Lundy 2009
SACRED NUMBER THE SECRET QUALITIES OF QUANTITIES Miranda Lundy 2009
EGYPT 57772 EGYPT EGYPT 777 EGYPT 5+2 = 7 7 = 5+2 EGYPT EGYPT 57772 EGYPT EGYPT EGYPT 57772 EGYPT
RE THE HOLY FAMILY
THE LIGHT IS RISING NOW RISING IS THE LIGHT
THE BULL OF MINOS Leonard Cottrell 1953 Chapter VII Page 90 THE QUEST CONTINUES "OUT IN THE DARK BLUE SEA THERE LIES A LAND CALLED CRETE, A RICH AND LOVELY LAND, WASHED BY THE WAVES ON EVERY SIDE, DENSELY PEOPLED AND BOASTING NINETY CITIES. . . ONE OF THE NINETY TOWNS IS A GREAT CITY CALLED KNOSSOS, AND THERE FOR NINE YEARS, KING MINOS RULED AND ENJOYED THE FRIENDSHIP OF ALMIGHTY ZEUS SUN 9 9 SUN EARTH 7 7 EARTH MOON 3 3 MOON JUPITER 99 99 JUPITER
WHO SHALL I SAY SENT ME UNTO THEM TELL THEM THAT I AM HATH SENT ME UNTO YOU
HARMONIC 288 Bruce Cathie 1977 THE MEASURE OF LIGHT Page 95 "The search for this particular value was a lengthy one and the clue that led me finally to a possible solution was a study of the construction of the Grand Gallery. The height of the Gallery was the first indication that it was not just an elaborate access passage. Previous measurements made by scientific investigators pointed to some interesting possibilities." Page 95 "The value that I calculated for length was extremely close to that of the one published in Davidson and Aldersmith's book, their value being 1836 inches," Page 95/97 "A search of my physics books revealed that 1836 was the closest approximation the scientists have calculated to the mass / ratio of the positive hydrogen ion, i.e. the proton, to the electron."
JUST SIX NUMBERS Martin Rees 1 OUR COSMIC HABITAT I PLANETS STARS AND LIFE Page 24 "A proton is 1,836 times heavier than an electron, and the number 1,836 would have the same connotations to any 'intelligence' " Page 24 / 25
"A proton is 1,836 times heavier than an electron, and the number 1,836 would have the same connotations to any 'intelligence'"
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