You can make long lists of just about everything, but when it comes down to a serious decision the lists can be grouped into three essentials. For instance, if you are considering going into business it all comes down to:

1. Product

2. Market

3. Financing

Similarly, you and I, structurally, come down to:

1. Skeleton - Frame

2. Nerves - Electrical

3. Blood Supply – Tubing

Mathematics also comes down to:

1. Numbers

2. Symbols

3. Formulas

Reading comes down to:

1. Words - Numbers

2. Letters - Symbols

3. Meaning - Formula

The interpretation of mathematics and reading is generally linear or in other words straight across. Some languages are read vertically which is essentially linear in a vertical direction. If you have the number 7918 in front of you and someone comes along and says the number is wrong and should be 7916, you generally rub it out and write 7916. You do it this way because you have been taught to think of numbers linearly. The third mathematics is thinking of a number as a string which in the case of number 7916 is the number 7, 9, 1, 6 linked together in a string. If you link them together in a string you can add the numbers 7, 9, 1, 6 which in this case total 23.

Number------String 1

7916----------23

You can also keep adding the string number digits until they are in one column .

String 1-------String 2

23--------------5

The number 7916 has the strings 23 and 5 as its' tail.

The string can be subtracted from the Number which forms the frame.

Number-----String 1--Frame 1

7916--------23--------789

The frame is also the area in which the number is located.

The universe consists of 3 strings:

1) Time String

2) Energy String

3) Space String

The time string which has neither energy or space has the value 9 while the universe, in general is based on the number 3.

If you divide the frame by 9 you get the space string or height for that particular number.

Frame 1------Space 1

7893-----------877

Frame 2-------Space 2

7911-----------879

The space string is also the height of the field around the number ( 7916 ) on its' string 23 or 5. The number 7916 can be anywhere in the frame which brings in Heisenberg's Uncertainty Principle. The Heisenberg Uncertainty Principle says that it is impossible to simultaneously determine both the position and momentum of an electron or any other particle with any great degree of accuracy or certainty. This principle is not a statement about the the researcher's limitations but is a statement about the system's limitations due to quantum mechanic equations. The energy string is associated with quantum mechanics and quantum theory. The energy string has quantum force, but neither time nor space. If the energy string has inward quantum force ( >------< ) then it is the strong nuclear force holding atoms together. If the energy string has outward quantum force ( <-----> ) then it is the weak nuclear force which allows reactions to happen without destroying the nucleus of the atom. If the energy string is flexed then it acts as gravity. This principle is similar to Einstein's Theory Of Relativity except that he explained it in terms of large masses ( particles / objects ) whereas I explain it in terms of strings, however, the overall principle is the same.

## Monday, October 25, 2010

## Friday, October 22, 2010

### In The Beginning

The initial expansion of the universe was the result of time strings. Time strings are action at a distance even though time strings don’t contain energy or space. The expansion using time strings was instantaneous and far reaching. Some of the time strings remained and other time strings were converted into potential energy strings. Potential energy strings are essentially static force strings. Inward operating static force potential energy strings are the strong nuclear force. Outward operating static force potential energy strings are the weak nuclear force which allows molecules to interact with other molecules in chemistry and metallurgy. Potential energy strings are not absolutely straight but tend to flex which creates the phenomena of gravity. The last string to form from some of the time strings was the space string. The space string is the dynamic force string. The space string gives us velocity, acceleration and inertia. The formation of the space string allowed all the strings to form bumps. These bumps could be particles, objects, actions or events. Each particle, object, action or event has a string associated with it. These tails allow the particle, object, action or event to interact with its’ surroundings. The tails also mean that the particle, object, action, or event can be examined through their respective tails. For instance, light which is mostly seen as a particle or quanta, also can be seen as a wave which is essentially its’ tail vibrating. The universe is based on the number 3. In mathematics you have numbers / formulas, lengths / calculus, and lastly digits / strings. Digits / strings link numbers to their strings and frame or state / space. Digit /strings are similar to the action of time strings. If you change digit(s) in the digit string through observation / measurement you change the number / string / frame which is similar to the action at a distance in a time string. The universe is based on the number 3, which means you have essentially 3 possibilities to consider, yes ( 1 ), no ( 0 ) and maybe ( ½. ) . The Schrodinger thought experiment considered two possibilities, that being whether or not the cat was alive or dead ( 1 or 0). The third possibility was that the cat was neither alive nor dead which was ( ½ ) . The universe didn’t close after the big bang so we see time, energy, and space strings as they initially existed which is the basis of quantum theory and quantum mechanics. Time has the value 9. The potential energy string has the value of the particle / length of height which usually has a value just over 9.. The space height is calculated by dividing the frame by 9. The frame has the same area but can have any shape through which it can vibrate properties.

## Sunday, October 17, 2010

### Riemann Hypothesis Resolved Using Prime Numbers

The Riemann Hypothesis says that all the non-trivial zeros ( 0 ) are on the line ( y = ½ ) and that this hypothesis has something to do with prime numbers. Another way of expressing it, is by saying that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function. In particular, the error term in the prime number theorem is closely related to the position of the zeros. It is known that there are infinitely many zeros on the line 1/2 + it as t ranges over the real numbers. A prime number is any number that is evenly divided by itself and 1. Therefore, a prime number is a specialized real number which exists on the x axis. It is also known that any prime number can create a real number that isn’t a prime. A real number is a number that is sequentially placed on the x - axis and therefore has a specific location that can be calculated through subtraction. A prime number, however, cannot be specifically located on the x - axis because the distance between the prime numbers aren’t consistent. Riemann extended his equation into complex numbers which oscillate on a vertical plane at right angles to the x - axis or in other words across the line ( y = ½ ). The non-trivial zeros do not become real until the oscillating complex zero crosses ( y = ½ ) and becomes real. The complex zero is really on an imaginary string before it lies along the line ( y = ½ ). At this point the real zero can be used to calculate the location of the prime number on the x - axis. It is also known that there are an infinite number of prime numbers and by extension an infinite number of real numbers because prime numbers can be used to construct real numbers. So far the calculated zeros lie on the critical line, but the prime’s location strays because the calculation process behaves just like a 50:50 coin toss. The 50:50 distribution law says that coins will divide themselves proportionately over the long term, but on the specific terms they generally will not distribute themselves evenly. There are always exceptions. The most important thing that Riemann said was that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function and the error term in the prime number theorem is closely related to the position of the zeros.

Here are some facts about prime numbers.

1. Prime numbers, if they are prime numbers, have the numbers 1, 3, 7, 9 in column 0 ( farthest right column ).

2. If the sum of the digits of any number ending in 1, 3, 7, 9, total a multiple of 3, except for 3, ( for instance total 6, 9, 12, etc. ) it isn’t a prime number. If a number ending in 1, 3, 7, 9 in column zero (0), isn’t a prime number it can usually be evenly divided by a number with 1, 3, 7, 9 in column (0).

3. A prime number is defined as being only evenly divisible by itself and one ( 1 ).

Here’s the proof:

A prime number is defined as any number that can be only divided evenly by itself and one. Furthermore a prime number, if it is a prime number, only has the digits, 1, 3, 7, 9 in column 0 which is the farthest right column. I have also discovered that if the sum of the digits of any number ending in 1, 3, 7, 9 total a multiple of 3, except for prime number 3 ( for example total 6, 9, 12, etc. ) then it isn’t a prime number. The single digit prime numbers are 1, 2, 3, 5, 7, if we ignore the convention of no longer considering 1 as a prime number. A real number which includes prime numbers are located somewhere on the x - axis. If we multiply each single digit prime number ( 1, 2, 3, 5, 7 ) by ½ we get 1 at approximately ½, 2 at approximately 1, 3 at approximately 1.5, 5 at approximately 2.5 and 7 at approximately 3.5. 1 is actually at 1, 2 at 2, 3 at 3, 5 at 4 and 7 at 5. 97 is a prime and if we multiply 97 by ½, we get 48.5. The prime 97 isn’t anywhere close to being the 48th prime. The Riemann Hypothesis says that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function. In particular, the error term in the prime number theorem is closely related to the position of the zeros. Our initial calculation indicated that the prime number 97 was oscillating around position 48.5 on the x axis which isn’t correct. The Riemann Hypothesis says that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function. In particular, the error term in the prime number theorem is closely related to the position of the zeros. What to do???? We know that the prime number 97 lies on the x axis as it is a specialized real number. The Riemann Hypothesis says that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function. Therefore we make up a multiplier. The first digit is ½ or .5. The second digit is one of the Riemann Hypothesis zeros so we now have ( .50 ) . ( .50 ) X 97 is no better off than multiplying 97 X ( .5 ). We know that the prime numbers have 1, 3, 7, or 9 in column 0. Therefore arbitrarily add the 9 digit to ( .50 ) forming ( .509 ). If we multiply prime 97 X ( .509 ) the answer is worse. If, however, we take ( .509 ^ 2 ) we get ( .259081 ) and 97 X ( .259081 ) = 25.130857. Prime number 97 is in actuality the 26th prime. The Riemann Hypothesis says that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function. In particular, the error term in the prime number theorem is closely related to the position of the zeros. Using the Riemann Hypothesis zeros between .5 and 9 ( .5----9 ) and raising it to a power we can oscillate the prime 97 around its’ position. Thus the error can be controlled by adjusting the Riemann Hypothesis zeros.

Here’s how the system works for numbers in general.

1. Count the number of digits in a prime number. For instance 7919 has 4 digits. Subtract 1 from the number of digits ( 4 - 1 = 3 ) for 7919. Form another number equal to the number of digits in 7919 ( 4 ) by putting ( .5 ) in the far left column and 9 in the far right column. ( .5—9 ). Fill the middle with Riemann Hypothesis zeros ( 0 ) forming a four digit number ( .5009 ). Raise ( .5009 ) to the power of 3 ( which is the number of digits in 7919 ( 4 ) minus 1 ( 4 - 1 = 3 ). ( .5009 ) ^ 3 = .125676215. Multiply 7919 X .125676215 which equals 995.2299524. 7919 is the 1000th prime. The answer is out by approximately 5. Adjust error accordingly using Riemann Hypothesis zeros.

As a matter of interest, if we are looking for the largest prime number in existence, the simplest way of doing it is to add digits to the left of any number ending in 1, 3, 7, 9 in column zero ( 0 ). Find the total of all the digits added together and divide by 3. If the result is an integer with no remainder, it is not a prime number. This truth can be verified by seeing if the number is only evenly divisible by itself and 1. It is also interesting that any number ending in 1, 3, 7, 9, if it isn’t a prime, is usually divisible by some number ending in 1, 3, 7, 9 in column 0.

If all the zeros used for calculating the position of primes on strings are real, then the primes themselves are real. Primes can be combined to create real numbers as well as fractions, so all the zeros for those numbers are real. Therefore the Riemann Hypothesis is true.

Actual Location Primes Multiplier 2 To Power 2 Power 2 Calculated Location

1 1 0.509999999 1 0.509999999 0.509999999

2 2 0.509999999 1 0.509999999 1.019999999

3 3 0.509999999 1 0.509999999 1.529999998

4 5 0.509999999 1 0.509999999 2.549999997

5 7 0.509999999 1 0.509999999 3.569999996

6 11 0.509999999 1 0.509999999 5.609999994

7 13 0.509999999 1 0.509999999 6.629999993

8 17 0.509999999 1 0.509999999 8.669999991

9 19 0.509999999 1 0.509999999 9.68999999

10 23 0.509999999 1 0.509999999 11.72999999

11 29 0.509999999 1 0.509999999 14.78999997

12 31 0.509999999 1 0.509999999 15.80999998

13 37 0.509999999 2 0.260099999 9.623699981

14 41 0.509999999 2 0.260099999 10.66409998

15 43 0.509999999 2 0.260099999 11.18429998

16 47 0.509999999 2 0.260099999 12.22469998

17 53 0.509999999 2 0.260099999 13.78529997

18 59 0.509999999 2 0.260099999 15.34589997

19 61 0.509999999 2 0.260099999 15.86609997

20 67 0.509999999 2 0.260099999 17.42669997

21 71 0.509999999 2 0.260099999 18.46709996

22 73 0.509999999 2 0.260099999 18.98729996

23 79 0.509999999 2 0.260099999 20.54789996

24 83 0.509999999 2 0.260099999 21.58829996

25 89 0.509999999 2 0.260099999 23.14889995

26 97 0.509999999 2 0.260099999 25.22969995

The position of the primes was calculated by multiplying the primes ( 1 to 31 ) by ( .509999999 ^ 1). From ( 37 to 97 ) the primes were multiplied by ( .509999999 ^ 2 ) to keep the calculated distance close to the actual distance.

Actual Location Primes String 1 String 2 Multiplier 2 To Power 2 Power 2 Calculated Location

27 101 2 2 0.509999999 2 0.2601 26.27009995

28 103 4 4 0.509999999 2 0.2601 26.79029995

29 107 8 8 0.509999999 2 0.2601 27.83069994

30 109 10 1 0.509999999 2 0.2601 28.35089994

31 113 5 5 0.509999999 2 0.2601 29.39129994

32 127 10 1 0.509999999 2 0.2601 33.03269993

33 131 5 5 0.509999999 2 0.2601 34.07309993

34 137 11 2 0.509999999 2 0.2601 35.63369993

35 139 13 4 0.509999999 2 0.2601 36.15389993

36 149 14 5 0.509999999 2 0.2601 38.75489992

37 151 7 7 0.509999999 2 0.2601 39.27509992

38 157 13 4 0.509999999 2 0.2601 40.83569992

39 163 10 1 0.509999999 2 0.2601 42.39629992

40 167 14 5 0.509999999 2 0.2601 43.43669991

41 173 11 2 0.509999999 2 0.2601 44.99729991

42 179 17 8 0.509999999 2 0.2601 46.55789991

43 181 10 1 0.509999999 2 0.2601 47.07809991

44 191 11 2 0.500999999 2 0.251001 47.9411909

45 193 13 4 0.500999999 2 0.251001 48.4431929

46 197 17 8 0.500999999 2 0.251001 49.4471969

47 199 19 1 0.500999999 2 0.251001 49.9491989

The position of the primes was calculated by multiplying the primes ( 101 to 181 ) by (.5099999999^2) From (191 to 199 ) the primes were multiplied by ( .5009999999 ^ 2 ) to keep the calculated distance close to the actual distance.

The most important thing that Riemann said was that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function and the error term in the prime number theorem is closely related to the position of the zeros. If you multiplied the primes from ( 191 to 199 ) by ( .509999999^2 ) the answer would be further from their real locations and hence the error would be greater.

It is also interesting that by either adding or subtracting Pi or ( e^1 ) depending on what is required you can get the Riemann Zero calculation closer to the actual location of the primes.

Actual Location Calculated Location Add / Subtract Total

1 0.509999999 0 0.509999999

2 1.019999999 0 1.019999999

3 1.529999998 0 1.529999998

4 2.549999997 0 2.549999997

5 3.569999996 0 3.569999996

6 5.609999994 0 5.609999994

7 6.629999993 0 6.629999993

8 8.669999991 0 8.669999991

9 9.68999999 0 9.68999999

10 11.72999999 0 11.72999999

11 14.78999997 -3.141592654 11.64840732

12 15.80999998 -3.141592654 12.66840733

13 9.623699981 3.141592654 12.76529263

14 10.66409998 3.141592654 13.80569263

15 11.18429998 3.141592654 14.32589263

16 12.22469998 3.141592654 15.36629263

17 13.78529997 3.141592654 16.92689263

18 15.34589997 3.141592654 18.48749262

19 15.86609997 3.141592654 19.00769262

20 17.42669997 3.141592654 20.56829262

21 18.46709996 3.141592654 21.60869262

22 18.98729996 3.141592654 22.12889262

23 20.54789996 3.141592654 23.68949261

24 21.58829996 3.141592654 24.72989261

25 23.14889995 0 23.14889995

26 25.22969995 0 25.22969995

27 26.27009995 0 26.27009995

28 26.79029995 0 26.79029995

29 27.83069994 0 27.83069994

30 28.35089994 0 28.35089994

31 29.39129994 0 29.39129994

32 33.03269993 0 33.03269993

33 34.07309993 0 34.07309993

34 35.63369993 0 35.63369993

35 36.15389993 0 36.15389993

36 38.75489992 -2.718281828 36.03661809

37 39.27509992 -2.718281828 36.55681809

38 40.83569992 -2.718281828 38.11741809

39 42.39629992 -3.141592654 39.25470726

40 43.43669991 -3.141592654 40.29510726

41 44.99729991 -3.141592654 41.85570726

42 46.55789991 -3.141592654 43.41630725

43 47.07809991 -3.141592654 43.93650725

44 47.9411909 -3.141592654 44.79959825

45 48.4431929 -3.141592654 45.30160025

46 49.4471969 -3.141592654 46.30560425

47 49.9491989 -2.718281828 47.23091707

It can be seen from these calculations that the magnitude of the oscillations of the primes around their expected position is controlled by the zeros ( 0’s) in the multiplier. The error term is closely related to the position of the zeros since ( .509999999 ) and (.599999990) both hold the same digits but the zero ( 0 ) position has been shifted thus putting the position of the primes further out of alignment. It can be seen that the calculation of the position of a prime and the number of primes preceding that prime all depend on the Riemann Hypothesis real zeros. Thus the Riemann Hypothesis has been proved by illustrating its’ real relationship to the position of the primes and the number of primes preceding it.

Here are some facts about prime numbers.

1. Prime numbers, if they are prime numbers, have the numbers 1, 3, 7, 9 in column 0 ( farthest right column ).

2. If the sum of the digits of any number ending in 1, 3, 7, 9, total a multiple of 3, except for 3, ( for instance total 6, 9, 12, etc. ) it isn’t a prime number. If a number ending in 1, 3, 7, 9 in column zero (0), isn’t a prime number it can usually be evenly divided by a number with 1, 3, 7, 9 in column (0).

3. A prime number is defined as being only evenly divisible by itself and one ( 1 ).

Here’s the proof:

A prime number is defined as any number that can be only divided evenly by itself and one. Furthermore a prime number, if it is a prime number, only has the digits, 1, 3, 7, 9 in column 0 which is the farthest right column. I have also discovered that if the sum of the digits of any number ending in 1, 3, 7, 9 total a multiple of 3, except for prime number 3 ( for example total 6, 9, 12, etc. ) then it isn’t a prime number. The single digit prime numbers are 1, 2, 3, 5, 7, if we ignore the convention of no longer considering 1 as a prime number. A real number which includes prime numbers are located somewhere on the x - axis. If we multiply each single digit prime number ( 1, 2, 3, 5, 7 ) by ½ we get 1 at approximately ½, 2 at approximately 1, 3 at approximately 1.5, 5 at approximately 2.5 and 7 at approximately 3.5. 1 is actually at 1, 2 at 2, 3 at 3, 5 at 4 and 7 at 5. 97 is a prime and if we multiply 97 by ½, we get 48.5. The prime 97 isn’t anywhere close to being the 48th prime. The Riemann Hypothesis says that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function. In particular, the error term in the prime number theorem is closely related to the position of the zeros. Our initial calculation indicated that the prime number 97 was oscillating around position 48.5 on the x axis which isn’t correct. The Riemann Hypothesis says that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function. In particular, the error term in the prime number theorem is closely related to the position of the zeros. What to do???? We know that the prime number 97 lies on the x axis as it is a specialized real number. The Riemann Hypothesis says that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function. Therefore we make up a multiplier. The first digit is ½ or .5. The second digit is one of the Riemann Hypothesis zeros so we now have ( .50 ) . ( .50 ) X 97 is no better off than multiplying 97 X ( .5 ). We know that the prime numbers have 1, 3, 7, or 9 in column 0. Therefore arbitrarily add the 9 digit to ( .50 ) forming ( .509 ). If we multiply prime 97 X ( .509 ) the answer is worse. If, however, we take ( .509 ^ 2 ) we get ( .259081 ) and 97 X ( .259081 ) = 25.130857. Prime number 97 is in actuality the 26th prime. The Riemann Hypothesis says that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function. In particular, the error term in the prime number theorem is closely related to the position of the zeros. Using the Riemann Hypothesis zeros between .5 and 9 ( .5----9 ) and raising it to a power we can oscillate the prime 97 around its’ position. Thus the error can be controlled by adjusting the Riemann Hypothesis zeros.

Here’s how the system works for numbers in general.

1. Count the number of digits in a prime number. For instance 7919 has 4 digits. Subtract 1 from the number of digits ( 4 - 1 = 3 ) for 7919. Form another number equal to the number of digits in 7919 ( 4 ) by putting ( .5 ) in the far left column and 9 in the far right column. ( .5—9 ). Fill the middle with Riemann Hypothesis zeros ( 0 ) forming a four digit number ( .5009 ). Raise ( .5009 ) to the power of 3 ( which is the number of digits in 7919 ( 4 ) minus 1 ( 4 - 1 = 3 ). ( .5009 ) ^ 3 = .125676215. Multiply 7919 X .125676215 which equals 995.2299524. 7919 is the 1000th prime. The answer is out by approximately 5. Adjust error accordingly using Riemann Hypothesis zeros.

As a matter of interest, if we are looking for the largest prime number in existence, the simplest way of doing it is to add digits to the left of any number ending in 1, 3, 7, 9 in column zero ( 0 ). Find the total of all the digits added together and divide by 3. If the result is an integer with no remainder, it is not a prime number. This truth can be verified by seeing if the number is only evenly divisible by itself and 1. It is also interesting that any number ending in 1, 3, 7, 9, if it isn’t a prime, is usually divisible by some number ending in 1, 3, 7, 9 in column 0.

If all the zeros used for calculating the position of primes on strings are real, then the primes themselves are real. Primes can be combined to create real numbers as well as fractions, so all the zeros for those numbers are real. Therefore the Riemann Hypothesis is true.

Actual Location Primes Multiplier 2 To Power 2 Power 2 Calculated Location

1 1 0.509999999 1 0.509999999 0.509999999

2 2 0.509999999 1 0.509999999 1.019999999

3 3 0.509999999 1 0.509999999 1.529999998

4 5 0.509999999 1 0.509999999 2.549999997

5 7 0.509999999 1 0.509999999 3.569999996

6 11 0.509999999 1 0.509999999 5.609999994

7 13 0.509999999 1 0.509999999 6.629999993

8 17 0.509999999 1 0.509999999 8.669999991

9 19 0.509999999 1 0.509999999 9.68999999

10 23 0.509999999 1 0.509999999 11.72999999

11 29 0.509999999 1 0.509999999 14.78999997

12 31 0.509999999 1 0.509999999 15.80999998

13 37 0.509999999 2 0.260099999 9.623699981

14 41 0.509999999 2 0.260099999 10.66409998

15 43 0.509999999 2 0.260099999 11.18429998

16 47 0.509999999 2 0.260099999 12.22469998

17 53 0.509999999 2 0.260099999 13.78529997

18 59 0.509999999 2 0.260099999 15.34589997

19 61 0.509999999 2 0.260099999 15.86609997

20 67 0.509999999 2 0.260099999 17.42669997

21 71 0.509999999 2 0.260099999 18.46709996

22 73 0.509999999 2 0.260099999 18.98729996

23 79 0.509999999 2 0.260099999 20.54789996

24 83 0.509999999 2 0.260099999 21.58829996

25 89 0.509999999 2 0.260099999 23.14889995

26 97 0.509999999 2 0.260099999 25.22969995

The position of the primes was calculated by multiplying the primes ( 1 to 31 ) by ( .509999999 ^ 1). From ( 37 to 97 ) the primes were multiplied by ( .509999999 ^ 2 ) to keep the calculated distance close to the actual distance.

Actual Location Primes String 1 String 2 Multiplier 2 To Power 2 Power 2 Calculated Location

27 101 2 2 0.509999999 2 0.2601 26.27009995

28 103 4 4 0.509999999 2 0.2601 26.79029995

29 107 8 8 0.509999999 2 0.2601 27.83069994

30 109 10 1 0.509999999 2 0.2601 28.35089994

31 113 5 5 0.509999999 2 0.2601 29.39129994

32 127 10 1 0.509999999 2 0.2601 33.03269993

33 131 5 5 0.509999999 2 0.2601 34.07309993

34 137 11 2 0.509999999 2 0.2601 35.63369993

35 139 13 4 0.509999999 2 0.2601 36.15389993

36 149 14 5 0.509999999 2 0.2601 38.75489992

37 151 7 7 0.509999999 2 0.2601 39.27509992

38 157 13 4 0.509999999 2 0.2601 40.83569992

39 163 10 1 0.509999999 2 0.2601 42.39629992

40 167 14 5 0.509999999 2 0.2601 43.43669991

41 173 11 2 0.509999999 2 0.2601 44.99729991

42 179 17 8 0.509999999 2 0.2601 46.55789991

43 181 10 1 0.509999999 2 0.2601 47.07809991

44 191 11 2 0.500999999 2 0.251001 47.9411909

45 193 13 4 0.500999999 2 0.251001 48.4431929

46 197 17 8 0.500999999 2 0.251001 49.4471969

47 199 19 1 0.500999999 2 0.251001 49.9491989

The position of the primes was calculated by multiplying the primes ( 101 to 181 ) by (.5099999999^2) From (191 to 199 ) the primes were multiplied by ( .5009999999 ^ 2 ) to keep the calculated distance close to the actual distance.

The most important thing that Riemann said was that the magnitude of the oscillations of primes around their expected position is controlled by the real parts of the zeros of the zeta function and the error term in the prime number theorem is closely related to the position of the zeros. If you multiplied the primes from ( 191 to 199 ) by ( .509999999^2 ) the answer would be further from their real locations and hence the error would be greater.

It is also interesting that by either adding or subtracting Pi or ( e^1 ) depending on what is required you can get the Riemann Zero calculation closer to the actual location of the primes.

Actual Location Calculated Location Add / Subtract Total

1 0.509999999 0 0.509999999

2 1.019999999 0 1.019999999

3 1.529999998 0 1.529999998

4 2.549999997 0 2.549999997

5 3.569999996 0 3.569999996

6 5.609999994 0 5.609999994

7 6.629999993 0 6.629999993

8 8.669999991 0 8.669999991

9 9.68999999 0 9.68999999

10 11.72999999 0 11.72999999

11 14.78999997 -3.141592654 11.64840732

12 15.80999998 -3.141592654 12.66840733

13 9.623699981 3.141592654 12.76529263

14 10.66409998 3.141592654 13.80569263

15 11.18429998 3.141592654 14.32589263

16 12.22469998 3.141592654 15.36629263

17 13.78529997 3.141592654 16.92689263

18 15.34589997 3.141592654 18.48749262

19 15.86609997 3.141592654 19.00769262

20 17.42669997 3.141592654 20.56829262

21 18.46709996 3.141592654 21.60869262

22 18.98729996 3.141592654 22.12889262

23 20.54789996 3.141592654 23.68949261

24 21.58829996 3.141592654 24.72989261

25 23.14889995 0 23.14889995

26 25.22969995 0 25.22969995

27 26.27009995 0 26.27009995

28 26.79029995 0 26.79029995

29 27.83069994 0 27.83069994

30 28.35089994 0 28.35089994

31 29.39129994 0 29.39129994

32 33.03269993 0 33.03269993

33 34.07309993 0 34.07309993

34 35.63369993 0 35.63369993

35 36.15389993 0 36.15389993

36 38.75489992 -2.718281828 36.03661809

37 39.27509992 -2.718281828 36.55681809

38 40.83569992 -2.718281828 38.11741809

39 42.39629992 -3.141592654 39.25470726

40 43.43669991 -3.141592654 40.29510726

41 44.99729991 -3.141592654 41.85570726

42 46.55789991 -3.141592654 43.41630725

43 47.07809991 -3.141592654 43.93650725

44 47.9411909 -3.141592654 44.79959825

45 48.4431929 -3.141592654 45.30160025

46 49.4471969 -3.141592654 46.30560425

47 49.9491989 -2.718281828 47.23091707

It can be seen from these calculations that the magnitude of the oscillations of the primes around their expected position is controlled by the zeros ( 0’s) in the multiplier. The error term is closely related to the position of the zeros since ( .509999999 ) and (.599999990) both hold the same digits but the zero ( 0 ) position has been shifted thus putting the position of the primes further out of alignment. It can be seen that the calculation of the position of a prime and the number of primes preceding that prime all depend on the Riemann Hypothesis real zeros. Thus the Riemann Hypothesis has been proved by illustrating its’ real relationship to the position of the primes and the number of primes preceding it.

## Saturday, June 12, 2010

### Time Travel Without Paradoxes

There are no paradoxes in time travel. Energy and Time are the same thing in our universe although we may call them different things at different times. Energy and Time do not possess space although they do travel through space according to our perceptions. Here is a way to look at it. If a murder is committed, that murder leaves traces in energy and time that it was committed. The investigators in the present come in and if their skills are sufficient, they can reconstruct what happened. If we could move backward in time, we could see the murder committed in that particular backward space even though the murdered person in our present existing space no longer existed. This is true because what we would be seeing is the residual image of that murdered person in that space and time and not how he or she was dead in present time. Similarly, if we went backward in time and saw ourselves, we would only be looking at our residual image. It would be similar to looking at a movie which had a long dead star in it. We would be seeing him or her how he or she existed in the time and space of that shot movie. We couldn’t physically destroy ourselves in the past because what we are seeing / experiencing is only an image in time and energy similar to a hologram. Paradoxically, our future selves may be observing ourselves, which we can’t see as we are only an energy and time image to them. Similarly moving forward in time, we would only be seeing an image of ourselves in the future.

## Wednesday, June 09, 2010

### Baggy Diapers

Particles are at the root of our understanding and explanation of the universe. Energy and Time are the same thing in our universe although we may call them different things at different times. Energy / Time in our universe is represented by the single digit number ( 9 ). Particles are really rolled up strings. Each particle has a surrounding frame which we see as a wave if it is moving, or weight (mass) if it is still. We can travel through space but we can’t travel through time or energy. Our space is anchored at both ends of time and energy. If space is longer than time and energy it curves like baggy diapers. The baggy diaper curve is weight / mass or gravity depending on its’ location in the universe. The baggy diaper curve edge is a trajectory in space irrespective of the location of that space in the universe. If space is shorter than time and energy, then time and energy adjusts its’ unit lengths. We see this phenomena as the common battery voltages of 1.5, 3 and 9.

Thus you will see that:

1. Weight

2. Mass

3. Gravity

are essentially the same thing under different names depending on the circumstances.

Thus you will see that:

1. Weight

2. Mass

3. Gravity

are essentially the same thing under different names depending on the circumstances.

## Saturday, May 08, 2010

### String Theory Explains Special Relativity

String Theory involves:

1 . Particles / Objects / Actions / Events / Messages.

2. Space

3. Time.

Particles / Objects / Actions / Events / Messages have an associated string in real space and in dark time. Dark Time associated with particles / objects / actions / events and messages has no associated space but does have a constant straight time value of 9. The real space value of particles / objects / actions / events / messages have various values.

The three principles of Special Relativity are:

1) length contraction

2) time dilation or time contraction / expansion.

3) failure of simultaneity at a distance or change in space over a distance.

Particles, when still, have a straight string and the effects of dark time aren’t noticed. If a particle starts to move its’ string lengthens to account for the velocity / acceleration. The particle / velocity / acceleration string starts to curve and the particle starts to lose its’ volume which we see as length contraction at sufficiently high speeds. The time string still has a no space value , but does have a non space value of 9. The space string must match the length of the straight time string whose constant value is 9. It does that by curving. This curving creates a series of waves at a frequency. This frequency may vary because the particle / object is accelerating. We see these waves / space curving as time dilation which we experience psychologically since we can’t see them. Failure of simultaneity at a distance or change in space over a distance is caused by our brain’s failure to interpret real time / space over a distance. This phenomena created by the brain is necessary or we wouldn’t be able to orient ourselves in space as far as distance from objects are concerned. If you don’t believe me, try orienting yourself in a dark room or in space without seeing any object.

1 . Particles / Objects / Actions / Events / Messages.

2. Space

3. Time.

Particles / Objects / Actions / Events / Messages have an associated string in real space and in dark time. Dark Time associated with particles / objects / actions / events and messages has no associated space but does have a constant straight time value of 9. The real space value of particles / objects / actions / events / messages have various values.

The three principles of Special Relativity are:

1) length contraction

2) time dilation or time contraction / expansion.

3) failure of simultaneity at a distance or change in space over a distance.

Particles, when still, have a straight string and the effects of dark time aren’t noticed. If a particle starts to move its’ string lengthens to account for the velocity / acceleration. The particle / velocity / acceleration string starts to curve and the particle starts to lose its’ volume which we see as length contraction at sufficiently high speeds. The time string still has a no space value , but does have a non space value of 9. The space string must match the length of the straight time string whose constant value is 9. It does that by curving. This curving creates a series of waves at a frequency. This frequency may vary because the particle / object is accelerating. We see these waves / space curving as time dilation which we experience psychologically since we can’t see them. Failure of simultaneity at a distance or change in space over a distance is caused by our brain’s failure to interpret real time / space over a distance. This phenomena created by the brain is necessary or we wouldn’t be able to orient ourselves in space as far as distance from objects are concerned. If you don’t believe me, try orienting yourself in a dark room or in space without seeing any object.

## Wednesday, May 05, 2010

### Time and Everything Dark

The basic construction of the universe is:

1. Particles

2. Strings

3. Frames

Each particle has its’ own string. Particles and their strings can combine with other particles and strings to create quantum objects and also physical objects which we can see such as buildings. Particles can travel along their own strings which causes the strings to flex which we see as:

1. Gravity.

2. Properties.

3. Forces.

Each string and particle travels / lives within a frame. This frame is seen as:

1. Waves.

2. Feelings

3. Influence

Time strings consist of:

1. Particles of Dark Matter.

2. Dark Energy which is the Time string itself

3. Dark Force which is contained in a Dark Wave.

Just before the Big Bang, the universe from which our universe was created, consisted solely of a Time String which contained everything rolled into one string. At the moment of the Big Bang everything broke into different types of particles, strings and frames which we see today. Remnants of the Time String exist today which due to its’ containing Dark Matter, Dark Energy and Dark Force drag us forward which we see personally as aging and physically as the expansion of our universe. We cannot reverse time, nor can we alter it as we can do to other particles, strings and frames. Time is not affected by our present day technology. We have no influence over dark matter, dark energy and dark force. If we could find a way to manipulate Time Strings beyond using them as a day to day marker of events, we could travel throughout the universe without aging.

1. Particles

2. Strings

3. Frames

Each particle has its’ own string. Particles and their strings can combine with other particles and strings to create quantum objects and also physical objects which we can see such as buildings. Particles can travel along their own strings which causes the strings to flex which we see as:

1. Gravity.

2. Properties.

3. Forces.

Each string and particle travels / lives within a frame. This frame is seen as:

1. Waves.

2. Feelings

3. Influence

Time strings consist of:

1. Particles of Dark Matter.

2. Dark Energy which is the Time string itself

3. Dark Force which is contained in a Dark Wave.

Just before the Big Bang, the universe from which our universe was created, consisted solely of a Time String which contained everything rolled into one string. At the moment of the Big Bang everything broke into different types of particles, strings and frames which we see today. Remnants of the Time String exist today which due to its’ containing Dark Matter, Dark Energy and Dark Force drag us forward which we see personally as aging and physically as the expansion of our universe. We cannot reverse time, nor can we alter it as we can do to other particles, strings and frames. Time is not affected by our present day technology. We have no influence over dark matter, dark energy and dark force. If we could find a way to manipulate Time Strings beyond using them as a day to day marker of events, we could travel throughout the universe without aging.

Labels:
Dark Energy,
Dark Force,
Dark Matter,
Time

## Sunday, May 02, 2010

### Strings & Force

The universe is primarily organized around:

1. Particles, Objects, Events, Messages.

2. Strings

3. Frames

Particles, objects and events are rolled up strings whereas messages are unrolled strings containing frames. Particles, objects and events follow paths which are a form of strings. These strings form forces when they are angled, straight or curved.

The four fundamental forces of physics are:

1. Gravity

2. Electromagnetism

3. Weak Nuclear Force

4. Strong Nuclear Force.

When particles, objects and events follow unorganized string paths you get random motion which is another form of probability, possibility and likelihood based on observed experience.

Frames are essentially a form of space / time. If the space dimension of a frame becomes curved while time remains straight it also curves the string paths of the particles, objects and events which is seen by us as gravity.

If inanimate strings containing particles such as electrons vibrate they create frames surrounding the strings which we see as electrical fields / waves and gravity which we call magnetism.

If animate strings vibrate which is primarily us than we get properties which we call personality and emanating waves we call charisma.

Physical chemistry is possible because the particle and object strings can be joined to form different particles and objects. This string force is stronger than gravity but not as strong as an electoweak force.

Biochemistry is possible because strings form bonds of varying strengths at angles which are readily rearranged by our bodies and allow us to live and function.

Weak nuclear interaction is associated with isotopes and beta decay which is a form of chaos or decay which we all experience at one time or another.

Strong nuclear force happens when the space in the frame is squeezed out and only time is left because it doesn’t have any space associated with it. In quantum theory only time is present although we like to think in terms of force in small spaces because that is the world with which we are familiar.

The fundamental forces are really just strings that are just space in one dimension and space / time when they form two dimensional frames.

1. Particles, Objects, Events, Messages.

2. Strings

3. Frames

Particles, objects and events are rolled up strings whereas messages are unrolled strings containing frames. Particles, objects and events follow paths which are a form of strings. These strings form forces when they are angled, straight or curved.

The four fundamental forces of physics are:

1. Gravity

2. Electromagnetism

3. Weak Nuclear Force

4. Strong Nuclear Force.

When particles, objects and events follow unorganized string paths you get random motion which is another form of probability, possibility and likelihood based on observed experience.

Frames are essentially a form of space / time. If the space dimension of a frame becomes curved while time remains straight it also curves the string paths of the particles, objects and events which is seen by us as gravity.

If inanimate strings containing particles such as electrons vibrate they create frames surrounding the strings which we see as electrical fields / waves and gravity which we call magnetism.

If animate strings vibrate which is primarily us than we get properties which we call personality and emanating waves we call charisma.

Physical chemistry is possible because the particle and object strings can be joined to form different particles and objects. This string force is stronger than gravity but not as strong as an electoweak force.

Biochemistry is possible because strings form bonds of varying strengths at angles which are readily rearranged by our bodies and allow us to live and function.

Weak nuclear interaction is associated with isotopes and beta decay which is a form of chaos or decay which we all experience at one time or another.

Strong nuclear force happens when the space in the frame is squeezed out and only time is left because it doesn’t have any space associated with it. In quantum theory only time is present although we like to think in terms of force in small spaces because that is the world with which we are familiar.

The fundamental forces are really just strings that are just space in one dimension and space / time when they form two dimensional frames.

## Wednesday, April 21, 2010

### Dark Stuff, Light Stuff & Lastly Strings

Space is composed of strings and strings are composed of dark matter, dark energy and dark force. Our seen universe is composed of light matter, light energy, and light force. Space is composed of dark matter in the form of strings which we can’t see but can experience. Strings also have dark energy which hold what we can see in position. The dark force stretches the strings, but it doesn’t stretch them evenly so over vast distances the galaxies seem to be accelerating from each other but it is only an illusion from our space viewpoint. The light force which we can see is gravity which allows us to move in our light space. Light force also causes entropy which is a gentle falling apart of light matter, light energy and light force which results in our ability to move, to transmit information and to deteriorate gracefully which we call aging. Dark force is equivalent to light gravity. Heavy dark forces are caused by the flexing of dark space strings. Heavy Light force is caused by matter moving at a velocity and acceleration. Light matter tends to contract when moving at a velocity or acceleration. This phenomena is not noticeable at low speeds. Space at high string speed tends to contract which we see as time dilation which occurs in Black Holes. All information about the black hole is in its’ event horizon because that is the border between light and dark. Our seen universe is based on the number 3, whereas dark space seen by us as time is based on 9. What we see as light is primarily space. What we see as dark is primarily time. More advanced civilizations have learned to connect light matter to dark space which means they can travel in time rather than space. Time has no dimension so there is nothing to transverse which results in everything being done instantly. That is why we can see what has happened astronomically speaking in the past when we look out into the heavens.

## Wednesday, April 14, 2010

### Three, Nine & Time

The universe tries to stabilize around the number 3. The range of potential stability is the difference between Pi ( 3.141592654 ) and e^1 ( 2.718281828 ) or ( .423310825 ). One unit of Time is equal to 9 units of Space. These 9 units of space do not have to be uniform spaces in terms of width. They can be random widths with different spacing between them. These differing units of appearing space / frames cause the illusion of random things happening at different intervals. These random happenings may or may not affect you. This process is Random Time. We can also use Time for counting as we mark certain events in our lives. This is Artificial Time based on years / days / hours / minutes / seconds. Real Time is when something out of the blue affects you.

In summary, Time can be:

1. Random

2. Artificial

3. Real

In summary, Time can be:

1. Random

2. Artificial

3. Real

## Friday, April 09, 2010

### String Theory Explains Special Relativity

The three principles of Special Relativity are:

1) length contraction

2) time dilation or time contraction / expansion with a constancy of 9 units.

3) failure of simultaneity at a distance or change in space over a distance.

Length contraction is essentially space expanding or contracting the faster it moves. Time dilation or time contraction / expansion is harder to grasp. Time always has 9 units in total. Each unit can expand or contract in size but when the resultant expanded or contracted units are counted they are always 9 in number which is equal to 1 unit of time. The failure of simultaneity at a distance is really the result of the expansion or contraction of individual units of space in time ( space-time ) whose total number must equal 9 of time before time can be seen / felt.

There also is the Law Of Conservation Of Momentum which states that linear momentum doesn’t change unless an external force acts upon it. The Law Of Conservation Of Energy states that energy can neither be created or destroyed.

Suppose we have a particle which is equal to 84. The string associated with particle 84 is obtained by adding its’ digits ( 8 + 4 = 12 ). The string associated with particle 84 can be also obtained by adding its’ first string number ( 12 ) to obtain 3 ( 1 + 2 = 3 ). Therefore particle 84 has the strings 12 and 3. If we subtract particle 84’s first string ( 12 ) from the value of the particle we get ( 84 - 12 = 72 ). If we subtract particle 84’s second string ( 3 ) from the value of the particle we get ( 84 - 3 = 81 ). 72 and 81 is the value of the frame in which the particle 84 exists at some location in two dimensional space. In one dimensional space 84 exists somewhere on its’ first one dimensional string 12 or somewhere on its’ second one dimensional string of 3. If we divide 84’s frames ( 72, 81 ) by 9 which represents 1 unit of time we get 8, or 9 units of space as in space / time. ( 72 / 9 = 8 ) ( 81 / 9 = 9 ). Depending on how you want to look at it, we have 9 units of space divided into a frame area of 72 or 81 ) giving us more space as an answer ( 8 or 9 ). Alternately you can look at it as one unit of time giving you 8 or 9 units of space as in time / space or space / time.

Length contraction involves the Law of Conservation of Energy and the Law of Conservation of Momentum. Suppose the universe is the size of the frame ( 72 or 81 ). The particle starts to move. Energy for that movement has to be taken from the particle because of the Law of Conservation Of Energy. That movement causes the particle ( 84 ) to contract to a lower number ( 69 ) and the resulting calculations change which is equivalent to a length contraction.

The Law Of Conservation Of Momentum says the total momentum can’t change in a closed system not affected by external forces. The particle 84 has a closed system ( frame ) of 81 or 72. If we observe the particle from outside the system that external ( observational ) force is acting to change the momentum of that particle. If we calculate the momentum from our position the answer will not match the observation of someone else from another position. That is why we cannot measure momentum and position of a particle at the same time because our act of observing changes the momentum and position of the particle. This is failure of simultaneity at a distance. It is also time dilation because the two observers are observing from different frames which have different space unit lengths totaling 9 ( equal to one unit of time ).

In summary, Time consists of 9 units of space before you have 1 countable unit of time. Each unit of these 9 units of space can expand or contract thereby giving Time the illusion of dilation. Failure of simultaneity at a distance is the result of the different frames from which the observation took place and the effects of the Law Of Conservation Of Momentum ( molecular vibration also ) on the relevant frame.

1) length contraction

2) time dilation or time contraction / expansion with a constancy of 9 units.

3) failure of simultaneity at a distance or change in space over a distance.

Length contraction is essentially space expanding or contracting the faster it moves. Time dilation or time contraction / expansion is harder to grasp. Time always has 9 units in total. Each unit can expand or contract in size but when the resultant expanded or contracted units are counted they are always 9 in number which is equal to 1 unit of time. The failure of simultaneity at a distance is really the result of the expansion or contraction of individual units of space in time ( space-time ) whose total number must equal 9 of time before time can be seen / felt.

There also is the Law Of Conservation Of Momentum which states that linear momentum doesn’t change unless an external force acts upon it. The Law Of Conservation Of Energy states that energy can neither be created or destroyed.

Suppose we have a particle which is equal to 84. The string associated with particle 84 is obtained by adding its’ digits ( 8 + 4 = 12 ). The string associated with particle 84 can be also obtained by adding its’ first string number ( 12 ) to obtain 3 ( 1 + 2 = 3 ). Therefore particle 84 has the strings 12 and 3. If we subtract particle 84’s first string ( 12 ) from the value of the particle we get ( 84 - 12 = 72 ). If we subtract particle 84’s second string ( 3 ) from the value of the particle we get ( 84 - 3 = 81 ). 72 and 81 is the value of the frame in which the particle 84 exists at some location in two dimensional space. In one dimensional space 84 exists somewhere on its’ first one dimensional string 12 or somewhere on its’ second one dimensional string of 3. If we divide 84’s frames ( 72, 81 ) by 9 which represents 1 unit of time we get 8, or 9 units of space as in space / time. ( 72 / 9 = 8 ) ( 81 / 9 = 9 ). Depending on how you want to look at it, we have 9 units of space divided into a frame area of 72 or 81 ) giving us more space as an answer ( 8 or 9 ). Alternately you can look at it as one unit of time giving you 8 or 9 units of space as in time / space or space / time.

Length contraction involves the Law of Conservation of Energy and the Law of Conservation of Momentum. Suppose the universe is the size of the frame ( 72 or 81 ). The particle starts to move. Energy for that movement has to be taken from the particle because of the Law of Conservation Of Energy. That movement causes the particle ( 84 ) to contract to a lower number ( 69 ) and the resulting calculations change which is equivalent to a length contraction.

The Law Of Conservation Of Momentum says the total momentum can’t change in a closed system not affected by external forces. The particle 84 has a closed system ( frame ) of 81 or 72. If we observe the particle from outside the system that external ( observational ) force is acting to change the momentum of that particle. If we calculate the momentum from our position the answer will not match the observation of someone else from another position. That is why we cannot measure momentum and position of a particle at the same time because our act of observing changes the momentum and position of the particle. This is failure of simultaneity at a distance. It is also time dilation because the two observers are observing from different frames which have different space unit lengths totaling 9 ( equal to one unit of time ).

In summary, Time consists of 9 units of space before you have 1 countable unit of time. Each unit of these 9 units of space can expand or contract thereby giving Time the illusion of dilation. Failure of simultaneity at a distance is the result of the different frames from which the observation took place and the effects of the Law Of Conservation Of Momentum ( molecular vibration also ) on the relevant frame.

## Saturday, April 03, 2010

### If Einstein Had Been A Social Scientist

It occurred to me the other day that if Einstein had been a social scientist rather than a physicist, the equation of E = MC^2 would have been explained as follows:

All organizations create as well as absorb energy. The organization in order to successfully accomplish a task must commit a minimum amount of resource to that project. This minimum amount of resource can be designated "M". Management, being management, must micromanage the project which is usually measured in the amount of time they run around thrusting their nose into things and demanding progress reports. The maximum speed of Time cannot be faster than the speed of light. Let the maximum speed of light be "C". Management in their hurry to get things done usually demand that work goes faster. Occasionally they add resources which will increase "M". Too much resource ( M ) in an insufficient space ( Time as in Space / Time ) increases the gravity of the situation. The effects of increased gravity "bends" the space devoted to the project thereby curving it further inward preventing any "light" or results escaping.(i.e.: Onlookers see nothing happening) The effects of this contraction concentrates the resources devoted to the project thereby increasing the gravity of the situation which-tends to promote more contraction until a singularity is reached at which point no "light" escapes thereby leading onlookers to assume that nothing is happening-. Massive E or Energy develops at the point of singularity after which everything beyond the horizon of that project is absorbed and if severe enough results in the ruining of careers as well as the organization itself.

All organizations create as well as absorb energy. The organization in order to successfully accomplish a task must commit a minimum amount of resource to that project. This minimum amount of resource can be designated "M". Management, being management, must micromanage the project which is usually measured in the amount of time they run around thrusting their nose into things and demanding progress reports. The maximum speed of Time cannot be faster than the speed of light. Let the maximum speed of light be "C". Management in their hurry to get things done usually demand that work goes faster. Occasionally they add resources which will increase "M". Too much resource ( M ) in an insufficient space ( Time as in Space / Time ) increases the gravity of the situation. The effects of increased gravity "bends" the space devoted to the project thereby curving it further inward preventing any "light" or results escaping.(i.e.: Onlookers see nothing happening) The effects of this contraction concentrates the resources devoted to the project thereby increasing the gravity of the situation which-tends to promote more contraction until a singularity is reached at which point no "light" escapes thereby leading onlookers to assume that nothing is happening-. Massive E or Energy develops at the point of singularity after which everything beyond the horizon of that project is absorbed and if severe enough results in the ruining of careers as well as the organization itself.

## Tuesday, March 16, 2010

### Intelligent Computers

The problem with intelligent computers is that we don’t know how to successfully program them. Our present computers are programmed on:

1. Rules

2. If

3. While / When.

Rules use the choice yes / no system. Yes is equal to 1 ( one ). No is equal to 0 ( zero ). The yes / no system is basically a two ( 2 ) dimensional system, whereas we live in a 4 dimensional world.

Our world is:

1. Rules.

2. Maybe

3. Statistical

Maybe involves the third dimension or the number 3. Maybe involves situations where rules are not clear cut.

Maybe is concerned with:

1. Intelligence

2. Experience

3. Culture / Training.

Functioning intelligence in the real word is essentially the ability to see:

1. Patterns

2. Relationships.

3. Exceptions.

The fourth ( 4th ) dimension is the future. The future in our universe always moves forward. The future involves choosing paths. There are infinite paths, but only 9 strings or dimensions. The future is based on statistics. Our statistical sample is rooted in our intelligence, experience, culture / training. Whether or not our statistical sample can be successfully translated into choosing the right future population of choices is the question. Fortunately the future for most of us has a normal curve of reasonable success with reasonable ups and downs with only minor irritations. This, in other words, is the old sine curve in action.

The trick,my friends, is to design an intelligent computer which is on 24 / 7 to absorb experience, establish relationships and patterns, to run in 9 dimensions including the future and to deal with the occasional random event. Oh yeah, don’t forget statistics, for which there are no rules but plenty of pitfalls.

1. Rules

2. If

3. While / When.

Rules use the choice yes / no system. Yes is equal to 1 ( one ). No is equal to 0 ( zero ). The yes / no system is basically a two ( 2 ) dimensional system, whereas we live in a 4 dimensional world.

Our world is:

1. Rules.

2. Maybe

3. Statistical

Maybe involves the third dimension or the number 3. Maybe involves situations where rules are not clear cut.

Maybe is concerned with:

1. Intelligence

2. Experience

3. Culture / Training.

Functioning intelligence in the real word is essentially the ability to see:

1. Patterns

2. Relationships.

3. Exceptions.

The fourth ( 4th ) dimension is the future. The future in our universe always moves forward. The future involves choosing paths. There are infinite paths, but only 9 strings or dimensions. The future is based on statistics. Our statistical sample is rooted in our intelligence, experience, culture / training. Whether or not our statistical sample can be successfully translated into choosing the right future population of choices is the question. Fortunately the future for most of us has a normal curve of reasonable success with reasonable ups and downs with only minor irritations. This, in other words, is the old sine curve in action.

The trick,my friends, is to design an intelligent computer which is on 24 / 7 to absorb experience, establish relationships and patterns, to run in 9 dimensions including the future and to deal with the occasional random event. Oh yeah, don’t forget statistics, for which there are no rules but plenty of pitfalls.

## Wednesday, February 03, 2010

### Space / Time Strings & Entropic Forces

Particles, objects, events and messages are rolled up strings containing unknown information . Each string has its’ own value. If the strings are unrolled you can see the information which is organized in layers / surfaces on that particular string. The space / time string has a value of 9. The information is held in place on each string because of the actions of inertia / gravity force which is the same thing under different names. There is also an opposing entropic force which tends to pull gravity / inertia forces apart. This entropic force is seen in our real world as randomness / deterioration / events out of the blue. The upside of this entropic force allows us to function / move / write / walk / do things in general.. If the entropic force didn’t exist we couldn’t have any controlled / controllable deterioration which is at the foundation of our functioning in time / space. Writing / walking / communicating / thinking are all examples of controlled / controllable deterioration leading to good / acceptable results.. The length of single digit strings are one to nine. Space / time strings have a length of 9 which means that our world is curved if the perceived string distance is less than nine since our world is the child of the quantum world. We call this entropic force different names using language because the basic entropic force is seen in different ways. Weather is an excellent example of calling this basic entropic force different names. This is also why sometimes bad things happen to good people. They simply get caught up in random entropic forces .. Lastly, entropic force is the reason that life follows a sine curve with random ups and downs.

## Friday, January 22, 2010

### Quantum Theory In A Nutshell

Particles, objects, events and messages are rolled up strings containing unknown information . If the strings are rolled out they contain unlimited information in holographic form which occupies a unit of space / time equal to nine. The information is held in space / time due to the actions of inertia. An opposing entropic force acts on the information which tends to pull it apart. The back and forth pull flexes the constant length of the string . This action creates a phenomena which we see as heat / temperature and gravity.. The heat and temperature is similar to thermodynamics and the entropic forces similar to hydrodynamics since the information on the string is disturbed / scrambled., It can therefore be said that gravity depends on the infinite information contained in the string. An example of information on a string is a word. Each letter is equivalent to a particle which strung together on a string creates information which we call a string.. If the word is written on a piece of paper , inertia holds it together. Eventually the entropic forces tear the paper apart leaving scrambled or no information. The string can be stretched on the horizon of a Black Hole but paradoxically its’ value doesn’t change. This action is similar in principle to a red or blue shift. In the world we see strings containing information function as forces, gravity and bonds. Particles are the molecules containing rolled up properties which aren’t easily discernible. Particles can be assembled in any configuration such as strings and lattices. Nuclear energy .is an extreme example of particles held together by extreme inertial forces that can only be ripped apart by highly heated entropic forces. This is why an atomic bomb is required to set off a hydrogen bomb. This process is nuclear fission which releases vast amounts of energy when the inertial string is broken . The opposite extreme is nuclear fusion which is the joining of strings which results in the controlled / gradual release of energy. Nuclear fusion is difficult to achieve because the strings are flexible and don’t want to join. Therefore, Quantum Theory is essentially all about information in a ball or spread out into a string. The manipulation of this information by inertia and entropic forces results in gravity, and everything else we need on a macroscopic scale including civilization

## Wednesday, January 20, 2010

### Strings As Gravity, Force, Velocity and Acceleration.

Space / Time has a string length of 9. If space / time flexes along its’ length as a string it becomes gravity. If space / time, as a string length of 9, attaches its’ ends it becomes a force. This phenomena is found in the bonds of chemistry and the nucleus of nuclear energy. If the string moves it has a velocity. If the string changes its’ velocity you have acceleration.

Labels:
Acceleration,
Dark Force,
Gravity,
Strings,
Velocity

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