PROOF THAT BILL GATES IS THE DEVIL
The real name of "the" Bill Gates is William Henry Gates III. Nowadays he is known as Bill Gates (III), where "III" means the order of third (3rd.)
By converting the letters of his current name to the ASCII-values and adding his (III), you get the following:
B 66
I 73
L 76
L 76
G 71
A 65
T 84
E 69
S 83
+ 3
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666 !!
Some might ask, "How did Bill Gates get so powerful?" Coincidence? Or just the beginning of mankind's ultimate and total enslavement???
Before you decide, consider the following:
M S - D O S 6 . 2 1
77+83+45+68+79+83+32+54+46+50+49 = 666
W I N D O W S 9 5
87+73+78+68+79+87+83+57+53+1 = 666
Coincidence? You decide...
2007-04-11 21:59:15 · 18 answers · asked by Anonymous in Computers & Internet ➔ Other - Computers
If I wasn't so lazy, I would double check your work. But... lazy.
2007-04-11 22:02:43 · answer #1 · answered by Anonymous · 1⤊ 0⤋
The number 666 is cool. Made famous by the Book of Revelation (Chapter 13, verse 18, to be exact), it has also been studied extensively by mathematicians because of its many interesting properties. Here is a compendium of mathematical facts about the number 666. Most of the well-known "chestnuts" are included, but many are relatively new and have not been published elsewhere.
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The number 666 is a simple sum and difference of the first three 6th powers:
666 = 16 - 26 + 36.
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It is also equal to the sum of its digits plus the cubes of its digits:
666 = 6 + 6 + 6 + 6³ + 6³ + 6³.
There are only five other positive integers with this property. Exercise: find them, and prove they are the only ones!
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666 is related to (6² + n²) in the following interesting ways:
666 = (6 + 6 + 6) · (6² + 1²)
666 = 6! · (6² + 1²) / (6² + 2²)
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The sum of the squares of the first 7 primes is 666:
666 = 2² + 3² + 5² + 7² + 11² + 13² + 17²
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The sum of the first 144 (= (6+6)·(6+6)) digits of pi is 666.
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16661 is the first beastly palindromic prime, of the form 1[0...0]666[0...0]1. The next one after 16661 is
1000000000000066600000000000001
which can be written concisely using the notation 1 013 666 013 1, where the subscript tells how many consecutive zeros there are. Harvey Dubner determined that the first 7 numbers of this type have subscripts 0, 13, 42, 506, 608, 2472, and 2623 [see J. Rec. Math, 26(4)].
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A very special kind of prime number [first mentioned to me by G. L. Honaker, Jr.] is a prime, p (that is, let's say, the kth prime number) in which the sum of the decimal digits of p is equal to the sum of the digits of k. The beastly palindromic prime number 16661 is such a number, since it is the 1928'th prime, and
1 + 6 + 6 + 6 + 1 = 1 + 9 + 2 + 8.
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The triplet (216, 630, 666) is a Pythagorean triplet, as pointed out to me by Monte Zerger. This fact can be rewritten in the following nice form:
(6·6·6)² + (666 - 6·6)² = 666²
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There are only two known Pythagorean triangles whose area is a repdigit number:
(3, 4, 5) with area 6
(693, 1924, 2045) with area 666666
It is not known whether there are any others, though a computer search has verified that there are none with area less than 1040. [see J. Rec. Math, 26(4), Problem 2097 by Monte Zerger]
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The sequence of palindromic primes begins 2, 3, 5, 7, 11, 101, 131, 151, 181, 191, 313, 353, etc. Taking the last two of these, we discover that 666 is the sum of two consecutive palindromic primes:
666 = 313 + 353.
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A well-known remarkably good approximation to pi is 355/113 = 3.1415929... If one part of this fraction is reversed and added to the other part, we get
553 + 113 = 666.
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[from Martin Gardner's "Dr. Matrix" columns] The Dewey Decimal System classification number for "Numerology" is 133.335. If you reverse this and add, you get
133.335 + 533.331 = 666.666
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[from G. L. Honaker, Jr.] There are exactly 6 6's in 6666. There are also exactly 6 6's in the previous sentence!
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[by P. De Geest, slight refinement by M. Keith] The number 666 is equal to the sum of the digits of its 47th power, and is also equal to the sum of the digits of its 51st power. That is,
66647 = 5049969684420796753173148798405564772941516295265
4081881176326689365404466160330686530288898927188
59670297563286219594665904733945856
66651 = 9935407575913859403342635113412959807238586374694
3100899712069131346071328296758253023455821491848
0960748972838900637634215694097683599029436416
and the sum of the digits on the right hand side is, in both cases, 666. In fact, 666 is the only integer greater than one with this property. (Also, note that from the two powers, 47 and 51, we get (4+7)(5+1) = 66.)
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The number 666 is one of only two positive integers equal to the sum of the cubes of the digits in its square, plus the digits in its cube. On the one hand, we have
6662 = 443556
6663 = 295408296
while at the same time,
(43 + 43 + 33 + 53 + 53 + 63) + (2+9+5+4+0+8+2+9+6) = 666.
The other number with this property is 2583.
We can state properties like this concisely be defining Sk(n) to be the sum of the kth powers of the digits of n. Then we can summarize items #13, #14, and #2 on this page by simply writing:
666 = S2(666) + S3(666)
= S1(66647)
= S1(66651)
= S3(6662) + S1(6663)
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[P. De Geest and G. L. Honaker, Jr.] Now that we have the Sk(n) notation, define SP(n) as the sum of the first n palindromic primes. Then:
S3( SP(666) ) = 3 · 666
where the same digits (3, 666) appear on both sides of the equation!
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[by Carlos Rivera] The number 20772199 is the smallest integer with the property that the sum of the prime factors of n and the sum of the prime factors of n+1 are both equal to 666:
20772199 = 7 x 41 x 157 x 461, and 7+41+157+461 = 666
20772200 = 2x2x2x5x5x283x367, and 2+2+2+5+5+283+367 = 666.
Of course, integers n and n+1 having the same sum of prime factors are the famous Ruth-Aaron pairs. So we can say that (20772199, 20772200) is the smallest beastly Ruth-Aaron pair.
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[by G. L. Honaker, Jr.] The sum of the first 666 primes contains 666:
2 + 3 + 5 + 7 + 11 · · · + 4969 + 4973 = 1533157 = 23 · 66659
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[Wang, J. Rec. Math, 26(3)] The number 666 is related to the golden ratio! (If a rectangle has the property that cutting off a square from it leaves a rectangle whose proportions are the same as the original, then that rectangle's proportions are in the golden ratio. Also, the golden ratio is the limit, as n becomes large, of the ratio between adjacent numbers in the Fibonacci sequence.) Denoting the Golden Ratio by t, we have the following identity, where the angles are in degrees:
sin(666) = cos(6·6·6) = -t/2
which can be combined into the lovely expression:
t = - (sin(666) + cos(6·6·6) )
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There are exactly two ways to insert '+' signs into the sequence 123456789 to make the sum 666, and exactly one way for the sequence 987654321:
666 = 1 + 2 + 3 + 4 + 567 + 89 = 123 + 456 + 78 + 9
666 = 9 + 87 + 6 + 543 + 21
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[from Patrick Capelle]
666 is a divisor of 123456789 + 987654321.
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[from Patrick Capelle] 666 can be expressed just using the digit 3, as
666 = p(3·3·3) + p(p(3·3·3))
where p(i) means the ith prime number (that is, p(1) = 2, p(2) = 3, p(3) = 5, etc.)
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A Smith number is an integer in which the sum of its digits is equal to the sum of the digits of its prime factors. 666 is a Smith number, since
666 = 2·3·3·37
while at the same time
6 + 6 + 6 = 2 + 3 + 3 + 3 + 7.
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Consider integers n with the following special property: if n is written in binary, then the one's complement is taken (which changes all 1's to 0's and all 0's to 1's), then the result is written in reverse, the result is the starting integer n. The first few such numbers are
2 10 12 38 42 52 56 142 150 170 178 204 212 232 240 542 558 598 614...
For example, 38 is 100110, which complemented is 011001, which reversed is 100110. Now, you don't really need to be told what the next one after 614 is, do you?
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The following fact is quite well known, but still interesting: If you write the first 6 Roman numerals, in order from largest to smallest, you get 666:
DCLXVI = 666.
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The previous one suggests a form of word play that was popular several centuries ago: the chronogram. A chronogram attaches a numerical value to an English phrase or sentence by summing up the values of any Roman numerals it contains. (Back then, U,V and I,J were often considered the same letter for the purpose of the chronogram, however I prefer to distinguish them.) What's the best English chronogram for 666? Here's one that's pretty apt:
Expect The Devil.
Note that four of the six numerals are contained in the last word.
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A standard function in number theory is phi(n), which is the number of integers smaller than n and relatively prime to n. Remarkably,
phi(666) = 6·6·6.
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The nth triangular number is given by the formula T(n) = (n)(n+1)/2, and is equal to the sum of the numbers from 1 to n.
666 is the 36th triangular number - in other words,
T(6·6) = 666.
In 1975 Ballew and Weger proved (see J. Rec. Math, Vol. 8, No. 2):
666 is the largest triangular number that's also a repdigit
(A repdigit is a number consisting of a single repeated non-zero digit, like 11 or 22 or 555555.)
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[From Patrick Capelle] 666 is the sum of the squares of two consecutive triangular numbers:
666 = 152 + 212
which can also be elegantly written as
T(6·6) = T(5)2 + T(6)2.
But also note that T(5) + T(6) = T(8). Indeed, 666 is the smallest triangular number of the form a2 + b2 with a+b also triangular.
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The doubly-triangular numbers are those numbers of the form T(T(n)), where T(n) are the triangular numbers defined in the previous item. The sequence of doubly-triangular numbers begins
1, 6, 21, 55, 120, 321, 406, 666, 1035
so we see that 666 is the eighth doubly-triangular number (i.e., T(T(8)) = 666).
The nth doubly-triangular number is, among other things, the number of ways to paint the vertices of a square using a set of n colors, where the colors are distinct but rotations and reflections of a given colored square are considered the same. So there are 666 distinct ways of painting the vertices of a square with a set of eight colors.
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[from Monte Zerger] 6 (= T(3)), 66 (= T(11)), and 666 (= T(36)) are all triangular numbers in base 10. These three numbers are also triangular in two other bases: 49 and 2040:
(6)49 = 6 = T(3)
(66)49 = 300 = T(24)
(666)49 = 14706 = T(171)
(6)2040 = 6 = T(3)
(66)2040 = 12246 = T(1564)
(666)2040 = 24981846 = T(7068)
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[from Monte Zerger] 6666 = 87266061345623616, which contains 6 6's. In addition, the digits of 6666 can be split into two sets in two different ways, both of which sum up to the same value, 36 (= 6 x 6).
The first eight and last nine digits both sum to 36:
8 + 7 + 2 + 6 + 6 + 0 + 6 + 1 = 6 x 6 = 3 + 4 + 5 + 6 + 2 + 3 + 6 + 1 + 6
while the 6's and non-6's also add up to 36:
6 + 6 + 6 + 6 + 6 + 6 = 6 x 6 = 8 + 7 + 2 + 0 + 1 + 3 + 4 + 5 + 2 + 3 + 1
Finally, note that 6666 is almost pandigital - the only digit it's missing is an upside-down 6 (i.e., 9).
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A polygonal number is a positive integer of the form
P(k,n) = n((k - 2)n + 4 - k)/2
where k is the 'order' of the polygonal number (k=3 gives the triangular numbers, k=4 the squares, k=5 the pentagonal numbers, etc.), and n is its index. A repdigit polygonal number is a polygonal number that also happens to be a repdigit. Finally, define the wickedness of a polygonal number as n/k. Now, an amazing fact:
666 is conjectured to be the most wicked repdigit polygonal number.
Since 666 = P(3,36), its wickedness value is n/k = 12. I recently showed by computer calculation that there are no counterexamples to this conjecture less than 1050. See my paper here for more details. It seems quite certain that this is true but so far no one has proved it.
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Whilst on the subject of polygonal numbers, we can find among them some rather beastly configurations. One of the more striking is the following:
If one arranges a group of people in a solid 3010529326318802-sided polygon with 666 people on each side, there will be a total of 666666666666666666666 persons in all.
Or, more simply, P(3010529326318802, 666) = 666666666666666666666. See the paper link in the previous item for more like this.
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Define PI(n,d) as the d consecutive decimal digits of the number π (3.14159265358979...) starting at the nth digit after the decimal point. Then we can make the following pretty statement:
PI(666, 3) = 7·7·7 (since the digits at that position are "343", or 7 cubed)
as well as the following one, which contains nothing but 6's and 3's (and two 666's):
PI(666 · 3.663663663..., 3) = 666.
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Inserting zeros between the sixes in 666 gives the number 60606, which has a few interesting properties of its own:
60606 = 7 x 13 x 666 = 91 x 666 = T(13) x T(36) - i.e., 60606 is the product of two triangular numbers.
60606 = 7 x 37 x (13 x 18), which is interesting in that Rev 13:18 is the place where 666 is mentioned.
60606 = P(7,156) - i.e., 60606 is a 7-gonal number. (Note that this can be written entirely using the evocative numbers 6, 7, and 13, by saying 60606 = P(7, (6+6)·13)). In addition we can make a statement using only 7's:
60606 is the 7th palindromic 7-gonal number.
60606 has exactly 6 prime factors.
60606+1 is a prime number. Not only that, but it's a prime (p) for which the period length of the decimal expansion of its reciprocal (1/p) attains the maximum possible value of p-1. In other words:
1/(60606 + 1) has period length 60606.
60606 is, just like 666, the sum of two consecutive palindromic primes (both of which contain the evil eyes!):
60606 = 30203 + 30403.
[Thanks to G. L. Honaker, Jr., Jud McCranie, Monte Zerger, and Patrick De Geest for these.]
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Finally, we close with an observation that makes a commentary on the folly of attaching a specific meaning to the number 666. If the letter A is defined to be equal to 36 (=6·6), B=37, C=38, and so on, then:
The sum of the letters in the word SUPERSTITIOUS is 666.
2007-04-11 22:46:34 · answer #2 · answered by Anonymous · 1⤊ 0⤋
1
2016-12-20 03:14:55 · answer #3 · answered by ? 3 · 0⤊ 0⤋
What a nonsense...
Either you take his full name or omit the III. in the short version (bessides III would be 73+73+73 = 219 in ASCII, 3 would be 51...). Also writing the name in capital letters is bit...
next one
MS-DOS 6.21 is the "last but one real version" released... why should it be important in detrmining the success of Microsoft???
and the last one
where does the 1 (=start heading) come from? Also if you are consistent in your theory you have to count a spance between the name and the number (you did that in the example above)
2007-04-11 22:25:00 · answer #4 · answered by Elex 3 · 0⤊ 0⤋
Numerology is any belief in divine, mystical or other special relationship between a number and some coinciding events. It's an occult science that I consider fascinating. I started to study numerology because of my obsession with Mathematics, Geometry. What I discovered it's really incredibble.
The best site you can visit is http://numerology.toptips.org
(go there and ask for your free personalized report)
2014-09-24 11:03:55 · answer #5 · answered by Anonymous · 0⤊ 0⤋
Watergate, that movie "****" , was really good. Colgate, i use that. (and tom's of maine) Stargate, .. euck. no thanks. starting gate, i don't care about that. Bill Gates, lucky sumbitch. Pearly gates, i'm not into that story. Gates McFadden, thats a sports guy, right? or The Gate (1987) ? awesome movie. Maybe we should add The Ninth Gate, not so awesome movie. eh. gators, - lake placid was excellent. delegates, yeah, i'm all about that. or Gatorade? i like the blue kind.
2016-05-18 00:31:16 · answer #6 · answered by renetta 3 · 0⤊ 0⤋
Fascinating
2007-04-12 00:26:07 · answer #7 · answered by sweet_angel92 3 · 0⤊ 0⤋
Thats quite cool you mention "the beginning of mankind's ultimate and total enslavement???" there is court battles all the time about microsoft not being open source which is a form of enslavement to technology.
2007-04-11 22:04:12 · answer #8 · answered by Deadman 2 · 0⤊ 0⤋
I think all peoples in these world have right to have free OS like windows, it is not fair to make a poor peoples for bought about $300 for a piece of CD... Bill gate and all of his corporation is like money machine...
2007-04-11 22:05:32 · answer #9 · answered by roy_marzoed 4 · 0⤊ 0⤋
And do you know Bill gates is planing to buy Yahoo
2007-04-11 22:59:00 · answer #10 · answered by Anonymous · 0⤊ 0⤋
Aside from the fact that the true number of the beast is 616, this is pretty neat-o.
http://www.religionnewsblog.com/11134/beasts-real-mark-devalued-to-616
2007-04-11 22:02:45 · answer #11 · answered by p37ry 5 · 0⤊ 1⤋