Today marks the astronomical cycles
autumn began
TO PREPARE MY WINTER
MEET SOON ANOTHER CYCLE
MY EXISTENCE IN THIS WORLD
TIME TO CLEAN MY TEMPLE
REMOVE ALL THAT NO LONGER
and open myself to the infinite possibilities of the Universe
Monday, September 22, 2008
Sb0480 Replacement Supply
Today marks the astronomical cycles
autumn began
TO PREPARE MY WINTER
MEET SOON ANOTHER CYCLE
MY EXISTENCE IN THIS WORLD
TIME TO CLEAN MY TEMPLE
REMOVE ALL THAT NO LONGER
and open myself to the infinite possibilities of the Universe
What Is A Best Way To Lease Restaurant Dishwasher
AUTUMN CYCLES
Mayan astronomers
extraordinary The Maya were astronomers, they made observations and documented movements Sun, Moon, and stars. For that reason it was easy to conceive the idea of \u200b\u200ba young Maya who was attracted by the stars.
before 36 BC the civilization of the Mayas, who lived in southern Mexico and northern Central America, had begun to use multiples of a year of 360 days to produce a very accurate calendar, measuring time intervals very long. The Maya of that time also had the only written language of pre-Columbian America, and the most advanced mathematics and astronomy. We found thousands of Mayan texts inscribed on stone monuments, stelae, pottery and ceramics.
Without telescopes would be very difficult for anyone to learn about distant planets, the nature of the stars and the dynamics of the Universe. However, using their observations (only with their eyes) and measures (with projection of shadows and other rudimentary instruments), the Mayan astronomers watched the sky as models in the sky that allowed them to know when the seasons change. His actions were of impressive precision in his description of planetary motions, and we can conclude that the scientific heritage of the Maya is monumental.
The ancient Maya built observatories and its most important buildings aligned with the movements of celestial bodies such as the Sun and the Pleiades. Chichén Itzá on the mainland Yucatan in Mexico, for example, is regarded as one of the most magnificent archaeological sites in the world, giving us a glare of splendor and sophistication of the ancient Mayan cities were ruled by the sky.
One of the most impressive buildings at Chichen Itza is El Caracol, a circular observatory built on a large square platform. Inside the building is a stone staircase in a spiral, which goes to the top of the observatory where the camera than with windows to make astronomical observations. From these windows the Mayans noticed the positions of the Sun, the declinations of the Moon, and the passages of Venus. They also used the shadows cast on the camera when the sun shone at an angle through the windows of observation, for example, to predict when the solstices would occur.
During the spring and fall equinoxes the sun can be seen lighting up the windows of the observatory, illuminating the interior walls. Positioned around the edge of El Caracol are some holes and stone cups filled with water and astronomers watched the reflection of the stars on the water surface. Hieroglyphic texts in El Caracol back to the ninth century. Mastering the complex
Chichen Itza is the Pyramid of Kukulcan, also known as El Castillo. It is an impressive pyramid with a rectangular base and a staircase that is 30 meters high (with the temple at the top), built by the Maya between 1000-1200 AD, directly over the foundations of another ancient temple.
The pyramid has special astronomical significance according to their design. Each façade of The Castle has a ladder and ninety-one steps, which together with the common step added the upper platform 365, the number of days in a year. The stairs divide the nine terraces on each side of the pyramid into eighteen segments, representing the eighteen months of the Mayan calendar. The design of this magnificent pyramid Reflecta the equinoxes and solstices of our solar year in a spectacular combination of light and shadow. During the equinoxes, the sun casts its light on the stairs and in the shadow of the steps seems to cast a snake undulating in the north steps of the pyramid.
What plausible that a Mayan princess would read books? It is very possible. The Maya wrote many books using a paper called amatl (from Nahuatl "paper"), manufactured from the bark of fig trees, an accordion folded and arranged in the form of a book called a codex. Shortly after the conquest, English priests burned and destroyed many books. Only three of these texts are known to have Maya survived until today. These books Maya codices are known as the Madrid, Dresden, and Paris.
The Dresden Codex is considered the most beautiful and complete books of maya. Amatl made of paper, the 74-page book is lavishly illustrated, and his writing is decorated with colors on both sides. Its primary colors are red, black, and the so-called Maya blue (like the turquoise color that resembles the Caribbean Sea). The Dresden Codex supports the reputation of the Maya as astronomers of great talent. This document contains such magnificent Mayan astronomical calculations, tables, and data that are remarkably accurate. It also represents a number of gods and documents aspects of their lives, agriculture, and their sacred rituals.
Dresden Codex Page
For the Maya, the planet Venus was very important. Mayan astronomers watched Venus and documenting their transit through the sky. The Dresden Codex contains tables and astronomical data of the full cycle of Venus. The Maya had five sets of 584 days or 5 repetitions of the Venus cycle. This corresponds to 2920 days or approximately 8 years. The table of the apparitions of Venus was used to predict the future.
The Mayans believed that everything was related closely to the idea of \u200b\u200btime. For them, the need to document and identify certain events in time and their need to provide regular occurrences astronomical events, religious, social and resulted in the invention of one of the most accurate calendar in history. The Mayan calendar is considered the most complex, intricate, and precise between ancient calendars. Consistent calculations of the cycles of 260 days and 365 days are almost equal to the current solar year as measured in the tropics, with only a margin of error of 19 minutes.
The Mayan calendar also includes calculations of the lunar cycle. The cycle of the moon was counted as 29 or 30 days, alternating. Lunar synodic period is about 29.5 days, so alternating their count between these two numbers the moon was woven between the time sequence of the calendar. The Dresden Codex also includes predictions of lunar eclipses.
For the Maya, the sky, calendars and mythology were integrated into one system of beliefs. The drawings of the stars in the Milky Way (the constellations), were directly related to their vision of creation. The Maya called the Milky Way the "World Tree," which was represented by a tall tree, the Ceiba, which rose to heaven where they believed that life originated.
The Maya also referred to the Milky Way Wakah Chan, which means "White Snake." They thought they were intimately connected with the cosmos. In fact, Kuxan Suum is a Mayan concept that literally means "path in the sky leading to the center of the universe."
There is also evidence suggesting that the Maya were the only civilization to demonstrate knowledge of the Orion Nebula before the invention of telescope. What supports this theory is a Mayan legend connected with the constellation Orion which they called Xibalba. They referred to the nebular and smoke coming from a copal incense. Some scholars believe this is significant and lends credence to the idea that the Maya detected a diffuse area in the sky before the telescope was invented. There
astronomy without mathematics. And Maya astronomy is no exception. The mathematics of the Maya was the most sophisticated system has been developed in pre-Columbian America. The ancient Maya discovered two fundamental ideas of mathematics notation and zero location. That the Maya understood the concept and value of zero is an extraordinary and amazing, because at that time almost none of the civilizations of the world had discovered the concept. 
Mayan astronomers
extraordinary The Maya were astronomers, they made observations and documented movements Sun, Moon, and stars. For that reason it was easy to conceive the idea of \u200b\u200ba young Maya who was attracted by the stars.
before 36 BC the civilization of the Mayas, who lived in southern Mexico and northern Central America, had begun to use multiples of a year of 360 days to produce a very accurate calendar, measuring time intervals very long. The Maya of that time also had the only written language of pre-Columbian America, and the most advanced mathematics and astronomy. We found thousands of Mayan texts inscribed on stone monuments, stelae, pottery and ceramics.
Without telescopes would be very difficult for anyone to learn about distant planets, the nature of the stars and the dynamics of the Universe. However, using their observations (only with their eyes) and measures (with projection of shadows and other rudimentary instruments), the Mayan astronomers watched the sky as models in the sky that allowed them to know when the seasons change. His actions were of impressive precision in his description of planetary motions, and we can conclude that the scientific heritage of the Maya is monumental.
The ancient Maya built observatories and its most important buildings aligned with the movements of celestial bodies such as the Sun and the Pleiades. Chichén Itzá on the mainland Yucatan in Mexico, for example, is regarded as one of the most magnificent archaeological sites in the world, giving us a glare of splendor and sophistication of the ancient Mayan cities were ruled by the sky.
One of the most impressive buildings at Chichen Itza is El Caracol, a circular observatory built on a large square platform. Inside the building is a stone staircase in a spiral, which goes to the top of the observatory where the camera than with windows to make astronomical observations. From these windows the Mayans noticed the positions of the Sun, the declinations of the Moon, and the passages of Venus. They also used the shadows cast on the camera when the sun shone at an angle through the windows of observation, for example, to predict when the solstices would occur.
During the spring and fall equinoxes the sun can be seen lighting up the windows of the observatory, illuminating the interior walls. Positioned around the edge of El Caracol are some holes and stone cups filled with water and astronomers watched the reflection of the stars on the water surface. Hieroglyphic texts in El Caracol back to the ninth century. Mastering the complex
Chichen Itza is the Pyramid of Kukulcan, also known as El Castillo. It is an impressive pyramid with a rectangular base and a staircase that is 30 meters high (with the temple at the top), built by the Maya between 1000-1200 AD, directly over the foundations of another ancient temple.
The pyramid has special astronomical significance according to their design. Each façade of The Castle has a ladder and ninety-one steps, which together with the common step added the upper platform 365, the number of days in a year. The stairs divide the nine terraces on each side of the pyramid into eighteen segments, representing the eighteen months of the Mayan calendar. The design of this magnificent pyramid Reflecta the equinoxes and solstices of our solar year in a spectacular combination of light and shadow. During the equinoxes, the sun casts its light on the stairs and in the shadow of the steps seems to cast a snake undulating in the north steps of the pyramid.
What plausible that a Mayan princess would read books? It is very possible. The Maya wrote many books using a paper called amatl (from Nahuatl "paper"), manufactured from the bark of fig trees, an accordion folded and arranged in the form of a book called a codex. Shortly after the conquest, English priests burned and destroyed many books. Only three of these texts are known to have Maya survived until today. These books Maya codices are known as the Madrid, Dresden, and Paris.
The Dresden Codex is considered the most beautiful and complete books of maya. Amatl made of paper, the 74-page book is lavishly illustrated, and his writing is decorated with colors on both sides. Its primary colors are red, black, and the so-called Maya blue (like the turquoise color that resembles the Caribbean Sea). The Dresden Codex supports the reputation of the Maya as astronomers of great talent. This document contains such magnificent Mayan astronomical calculations, tables, and data that are remarkably accurate. It also represents a number of gods and documents aspects of their lives, agriculture, and their sacred rituals.
Dresden Codex Page
For the Maya, the planet Venus was very important. Mayan astronomers watched Venus and documenting their transit through the sky. The Dresden Codex contains tables and astronomical data of the full cycle of Venus. The Maya had five sets of 584 days or 5 repetitions of the Venus cycle. This corresponds to 2920 days or approximately 8 years. The table of the apparitions of Venus was used to predict the future.
The Mayans believed that everything was related closely to the idea of \u200b\u200btime. For them, the need to document and identify certain events in time and their need to provide regular occurrences astronomical events, religious, social and resulted in the invention of one of the most accurate calendar in history. The Mayan calendar is considered the most complex, intricate, and precise between ancient calendars. Consistent calculations of the cycles of 260 days and 365 days are almost equal to the current solar year as measured in the tropics, with only a margin of error of 19 minutes.
The Mayan calendar also includes calculations of the lunar cycle. The cycle of the moon was counted as 29 or 30 days, alternating. Lunar synodic period is about 29.5 days, so alternating their count between these two numbers the moon was woven between the time sequence of the calendar. The Dresden Codex also includes predictions of lunar eclipses.
For the Maya, the sky, calendars and mythology were integrated into one system of beliefs. The drawings of the stars in the Milky Way (the constellations), were directly related to their vision of creation. The Maya called the Milky Way the "World Tree," which was represented by a tall tree, the Ceiba, which rose to heaven where they believed that life originated.
The Maya also referred to the Milky Way Wakah Chan, which means "White Snake." They thought they were intimately connected with the cosmos. In fact, Kuxan Suum is a Mayan concept that literally means "path in the sky leading to the center of the universe."
There is also evidence suggesting that the Maya were the only civilization to demonstrate knowledge of the Orion Nebula before the invention of telescope. What supports this theory is a Mayan legend connected with the constellation Orion which they called Xibalba. They referred to the nebular and smoke coming from a copal incense. Some scholars believe this is significant and lends credence to the idea that the Maya detected a diffuse area in the sky before the telescope was invented. There
astronomy without mathematics. And Maya astronomy is no exception. The mathematics of the Maya was the most sophisticated system has been developed in pre-Columbian America. The ancient Maya discovered two fundamental ideas of mathematics notation and zero location. That the Maya understood the concept and value of zero is an extraordinary and amazing, because at that time almost none of the civilizations of the world had discovered the concept.
How Do You Get Rid Of Staph Infection Scars
Equinox Equanimity
From this idea, observing the sky and the stars of the phenomena that originate on land, such as seasons, length of day and night, phases of the moon and its influence on the tides and the ripening of fruits, crops etc. are skills that apply also in parallel or analogous to the states of life of nature in general and men in particular. And philosophers of antiquity asserted that man is a "microcosm" which vibrates and works in harmony with the macrocosm in which it is immersed. Others summarize this idea in the formula: "As above, so below." I must clarify that these ideas are anything but superstition of "New Age" or esoteric. It is the simple observation of reality that surrounds us.
The equinox is the astronomical phenomenon whereby the day acquires a period equal to the night. This balance means that the light and the darkness does not prevail over one another. This is the first task to accomplish in this time of year, your passions and weaknesses, your ignorance, since you can not overcome by the time equilíbralas! Recognized in you your lights and your shadows to later transform into radiant light of knowledge, virtue, capable of love, warmth and light to those around you. Melt away the cold and warmth, fear and doubt. Now is the time of the explosion of life in the body and soul.
The great actor of the equinox is the Sun, which along with the port at night, the moon, are the two celestial bodies have more presence in the great task to undertake to transform by being consistent with yourself and the universe we live. Along with observing the Sun material, in attempting to receive the rays of light and life. 
From this idea, observing the sky and the stars of the phenomena that originate on land, such as seasons, length of day and night, phases of the moon and its influence on the tides and the ripening of fruits, crops etc. are skills that apply also in parallel or analogous to the states of life of nature in general and men in particular. And philosophers of antiquity asserted that man is a "microcosm" which vibrates and works in harmony with the macrocosm in which it is immersed. Others summarize this idea in the formula: "As above, so below." I must clarify that these ideas are anything but superstition of "New Age" or esoteric. It is the simple observation of reality that surrounds us.
The equinox is the astronomical phenomenon whereby the day acquires a period equal to the night. This balance means that the light and the darkness does not prevail over one another. This is the first task to accomplish in this time of year, your passions and weaknesses, your ignorance, since you can not overcome by the time equilíbralas! Recognized in you your lights and your shadows to later transform into radiant light of knowledge, virtue, capable of love, warmth and light to those around you. Melt away the cold and warmth, fear and doubt. Now is the time of the explosion of life in the body and soul.
The great actor of the equinox is the Sun, which along with the port at night, the moon, are the two celestial bodies have more presence in the great task to undertake to transform by being consistent with yourself and the universe we live. Along with observing the Sun material, in attempting to receive the rays of light and life.
Programs Wording For Deceased
EQUANIMITY
If you can keep your head when everyone around you lose and you are covered with reproaches; If you have faith in yourself when others doubt you men and be indulgent to your question, If can wait and not be tired by waiting, if you can be the target of lies and not fall into the lie, and if you hated, do not return the hatred, yet do, so, not too good or too wise ;
If you can dream and not make dreams your master If you desperately think without thoughts your aim, If you can meet with triumph and disaster and treat the same way those two impostors; If you can bear to hear the truth you see exposed twisted by rogues, to make a trap for fools. Or watch the things you gave life to have been broken, And stoop and build them again even with worn tools.
Are you able to put together in one bundle, all your winnings And risk it, heads or tails, in a single round and if you lose, start again at your beginnings and never breathe a word about the loss. If you can force your heart, your fiber and your nerves, to obey you even after fainting and thus remain, until you have no other than the screaming will "persist, is the order!"
If you can talk with crowds and keep your virtue, or alternating with kings and not lose common touch. If nothing else, neither foes nor loving friends can hurt you, If all men count with you, but none too much, If you can fill the unforgiving minute with sixty seconds worth of distance run, Yours is the Earth and As it contains.
And, what is more, "be a man my son. Rudyard Kipling
Tuesday, September 9, 2008
Will Flucloxacillin Work For Chest Infection?
SENTIMENT 9 SEP 2008 1975
master of my emotions
Today I will be master of my emotions.
If I feel depressed I will sing.
If I feel sad, laugh.
If I feel ill I will double my labor.
If I feel fear I will plunge ahead.
If I feel inferior, wear new garments.
If I feel unsafe, I will raise my voice.
If I feel poverty, think of future wealth.
If I feel incompetent, remember past successes.
If I feel insignificant I will remember my goals.
Today I will be master of my emotions.
over me If overconfidence, I recall my failures.
If I am inclined to surrender in excess of the good life, remember past famines.
If I feel complacency remember my competitors.
If I enjoy moments of greatness, remember moments of shame.
If I feel powerful, try to stop the wind.
If I attain great wealth, remember a hungry mouth.
If I feel excessively proud, remember a moment of weakness.
If I think my skill is unmatched, look at the stars.
In short, today I will be master of my emotions.
Og Mandino
Sadness
1964
I no longer magical world. I have left.
I will not share the clear moon slow
Neither gardens. Since there is no moon
than mirror the past. Crystal
solitude, sun agonies. Goodbye
mutual
hands and temples that brings the love. Today just
The faithful memory and deserts days. Nobody loses
(repeat vainly)
But what does not and never has had
, but not enough to be brave
To learn the art of forgetting.
A symbol, a rose, you
tears And you can kill a guitar.
II
I will not be happy. It may not matter.
There are so many other things in the world;
A moment
whichever is deeper and different than the sea. Life is short
And though the hours are so long, a Dark
wonder awaits us
Death, that other sea, that other arrow
That frees us from the sun and moon
And love. The happiness you gave me and got rid
must be erased
What was it all has to be nothing.
I only have the joy of being sad, empty custom
That leads me
the South, to a certain street at a certain corner. Jorge Luis Borges
master of my emotions
Today I will be master of my emotions.
If I feel depressed I will sing.
If I feel sad, laugh.
If I feel ill I will double my labor.
If I feel fear I will plunge ahead.
If I feel inferior, wear new garments.
If I feel unsafe, I will raise my voice.
If I feel poverty, think of future wealth.
If I feel incompetent, remember past successes.
If I feel insignificant I will remember my goals.
Today I will be master of my emotions.
over me If overconfidence, I recall my failures.
If I am inclined to surrender in excess of the good life, remember past famines.
If I feel complacency remember my competitors.
If I enjoy moments of greatness, remember moments of shame.
If I feel powerful, try to stop the wind.
If I attain great wealth, remember a hungry mouth.
If I feel excessively proud, remember a moment of weakness.
If I think my skill is unmatched, look at the stars.
In short, today I will be master of my emotions.
Og Mandino
Sadness
1964
I no longer magical world. I have left.
I will not share the clear moon slow
Neither gardens. Since there is no moon
than mirror the past. Crystal
solitude, sun agonies. Goodbye
mutual
hands and temples that brings the love. Today just
The faithful memory and deserts days. Nobody loses
(repeat vainly)
But what does not and never has had
, but not enough to be brave
To learn the art of forgetting.
A symbol, a rose, you
tears And you can kill a guitar.
II
I will not be happy. It may not matter.
There are so many other things in the world;
A moment
whichever is deeper and different than the sea. Life is short
And though the hours are so long, a Dark
wonder awaits us
Death, that other sea, that other arrow
That frees us from the sun and moon
And love. The happiness you gave me and got rid
must be erased
What was it all has to be nothing.
I only have the joy of being sad, empty custom
That leads me
the South, to a certain street at a certain corner. Jorge Luis Borges
Monday, September 1, 2008
Office Masterbation Vids
The perpetual erection theorem Considerations Butt and butt
Those who study the physical reality are, after the foundation of quantum theory discussion of chance or determinism gave very strongly in particular between Einstein and Bohr , a discussion that lasted almost 30 years and the end neither could see end. Einstein's position was very similar to Poicare who said that chance is the measure of our ignorance, Einstein defined it as another way that God does not play dice.
I think what bothered most Einstein was not that God played dice, but it craps out all
The last work on quantum theory of Einstein was precisely to show that the version of the theory Quantum was wrong and was conducted in conjunction with Nathan Rosen and poldosky and is called the EPR paradox by the name of the authors.
I'll try to explain it, let's assume you throw a coin, may fall or face shield. But just falls, using a magical is divided into two parts leaving the part of the seal and the shield apart, even without seeing the result, given the part that fell up to someone and the party fell down to someone else. Both people are going in different directions and after a year or 30 years, is one which is having in his pocket and realizes he is a shield, so far could be heads or tails, but the time really gives you view it, is said to collapse the wave function * and therefore know the other person is the part that is expensive. Although the other person has not seen and the currency remains undetermined having in his pocket.
This is a very subtle and intelligent argument to say that chance is only our ignorance of the facts and proof that there are "hidden variables." Bohr spent nearly 6 weeks (a record for speed) to prove the falsity of that argument. The end I convinced my much less Einstein.
American Physicist Bohm again bring the subject up in 1953 when I make a theory which took into account such hidden variables. I also make a popular book that allowed almost anyone to create a particular physics-based mysticism.
But most of all sought to destroy the theorem von Neumann, one of the most influential mathematicians in our lives (I think modern computers and helped to create the fusion bomb), because in the 30's realized the implications of quantum theory and made a theorem to show that the randomness was inherent in everything, not just the atoms or electrons if not all.
He said that if when a microscopic system is paired with a measuring instrument Macroscope, the effect of pairing is that the microscopic system to behave as if they were absent the interference effects.
words, the state of the macro seems to be reduced to a superposition of waves, or exclusive alternative realities.
But that does not mean that reduced to "a reality" as another result of the match is transferring the effects of interference to the measuring device and this device is reduced to a reality we need another and another and another and another. Since
started to wonder when a quantum random phenomenon lapsed, How many atoms are needed in order to begin to behave as classical particles? ¿2 atoms? "50 atoms? A mole? The
Plank constant is very small, too small and it is for this reason that its effects are not often seen in daily life, but the important thing is not constant in itself but H barred it h/2π
In a book published at that time try to find the axiomatic basis of quantum theory, but from a mathematical point of view more than physical.
This treatment was quickly superseded by the theory of Dirac , which is more consistent and avoid misconceptions unless the wave function Scrödinger **.
But the important thing is that it could address the problem of determinism against the non-determinism in logical way and created a theorem that quantum mechanics can not be derived by statistical approximation of any deterministic theory.
And basically that quantum effects do not disappear, but can be made very small-in macro systems. Therefore, this keyboard has even quantum effects.
But as things looked like they were still in place and not disappear and appear, it was believed that there was a failure and it was pure mathematics without practical applications in the world. And incredibly Einstein
waste for that reason to believe it was a pure mathematical speculation
In developing his argument von Neumann had a small misconception because their training was in physics. But if it was broadly correct.
A mid- 50 Bell took advantage of that little conceptual error to develop his theorem which could put an end to the discussion vs.no-deterministic determinism, one consequence of his theorem is the inequality of Bell, said in his original work that;
(the theory that I Bohm hidden variables with non- was local therefore it provided a means signals could travel faster than light)
And the proof of impossibility of bell shows that the town is the only kind of mechanism that can account for these correlations. You can not have local realism of Einstein and quantum theory. There can be only local realism of Einstein and quantum theory. Another quality
Bell's theorem is that it is quantitative in the sense that the distinction between local realism and quantum theory is a proposition that can be checked.
local theories lead to different correlations in quantum theory. This difference is known as unequal Bell, and therefore something that is apparent in the laboratory.
Until then nobody had a clear idea of \u200b\u200bhow to do an experiment to see who was right (Einstein and Bohr) now knew that the results could mean.
thought
When performing these experiments believed to use the spin of the particle, a spin can not put into words because it is something very abstract, we can say that is another quality of angular momentum, we do not see everyday anything with that property.
At least the electron has spin ½, and therefore can point in two directions in the presence of a magnetic field.
The way was found spin is curious as it was found before I knew it was.
Otto Stern and Gerlach found space quantization silver atoms when heated in an oven and then extracted a beam of these atoms which passed through a strong magnetic field. The direction of this field is what defines the spatial axis (a particle with spin 1 has three directions) and as they knew nothing of the spin assumed that the trajectory of the silver atoms are randomly modified, and to prove the deposit left on a lamina. They were surprised when atoms are placed only in two thin lines separated by less than a fraction of a millimeter. And that nothing
physics I could explain classical.
As you see the spin of a particle was ideal for the experiment, since it has two related measures and the Heisenberg principle is known to accurately measure more uncertain is the other. And that made
Bohm, I plan to experiment with the spin, but technical problems were enormous, but is weighed out, but at that time nobody knew how to interpret the results, so the results were ambiguous ..
is easier to work with photons and focused on that aspect of new experiments. You could make a beam of polarized light in one direction say 45 ° degrees after posing as two polarizers who changed their polarization every hundredth of a million seconds, so the polarization was changed while the photons had not yet reached and discarded the communication between the detectors. This and subsequent course has been made completely rule out the version of Einstein. Naturally
completely rule out such experiments and determinism.
The world just keeps order because Planck's constant is very small, but that does not prevent affected.
Although this problem is resolved once Feymann richard said concerning these experiments
(This manner of expression was typical of Feymann )
This means that reality (and perhaps why the confusion of Feymann) is completely random and unpredictable. Since the end of the day are composed of atoms and these atoms is exposed to the eccentricities of the quantum world, more seriously, the electrons that are essential for communication between neurons and the same understanding of what we see.
the introduction to this post appears in Opuscrisis
philosophy, philosophy , physical, physical , science, science ,
Those who study the physical reality are, after the foundation of quantum theory discussion of chance or determinism gave very strongly in particular between Einstein and Bohr , a discussion that lasted almost 30 years and the end neither could see end. Einstein's position was very similar to Poicare who said that chance is the measure of our ignorance, Einstein defined it as another way that God does not play dice.
I think what bothered most Einstein was not that God played dice, but it craps out all
The last work on quantum theory of Einstein was precisely to show that the version of the theory Quantum was wrong and was conducted in conjunction with Nathan Rosen and poldosky and is called the EPR paradox by the name of the authors.
I'll try to explain it, let's assume you throw a coin, may fall or face shield. But just falls, using a magical is divided into two parts leaving the part of the seal and the shield apart, even without seeing the result, given the part that fell up to someone and the party fell down to someone else. Both people are going in different directions and after a year or 30 years, is one which is having in his pocket and realizes he is a shield, so far could be heads or tails, but the time really gives you view it, is said to collapse the wave function * and therefore know the other person is the part that is expensive. Although the other person has not seen and the currency remains undetermined having in his pocket.
This is a very subtle and intelligent argument to say that chance is only our ignorance of the facts and proof that there are "hidden variables." Bohr spent nearly 6 weeks (a record for speed) to prove the falsity of that argument. The end I convinced my much less Einstein.
American Physicist Bohm again bring the subject up in 1953 when I make a theory which took into account such hidden variables. I also make a popular book that allowed almost anyone to create a particular physics-based mysticism.
But most of all sought to destroy the theorem von Neumann, one of the most influential mathematicians in our lives (I think modern computers and helped to create the fusion bomb), because in the 30's realized the implications of quantum theory and made a theorem to show that the randomness was inherent in everything, not just the atoms or electrons if not all.
He said that if when a microscopic system is paired with a measuring instrument Macroscope, the effect of pairing is that the microscopic system to behave as if they were absent the interference effects.
words, the state of the macro seems to be reduced to a superposition of waves, or exclusive alternative realities.
But that does not mean that reduced to "a reality" as another result of the match is transferring the effects of interference to the measuring device and this device is reduced to a reality we need another and another and another and another. Since
started to wonder when a quantum random phenomenon lapsed, How many atoms are needed in order to begin to behave as classical particles? ¿2 atoms? "50 atoms? A mole? The
Plank constant is very small, too small and it is for this reason that its effects are not often seen in daily life, but the important thing is not constant in itself but H barred it h/2π
In a book published at that time try to find the axiomatic basis of quantum theory, but from a mathematical point of view more than physical.
This treatment was quickly superseded by the theory of Dirac , which is more consistent and avoid misconceptions unless the wave function Scrödinger **.
But the important thing is that it could address the problem of determinism against the non-determinism in logical way and created a theorem that quantum mechanics can not be derived by statistical approximation of any deterministic theory.
And basically that quantum effects do not disappear, but can be made very small-in macro systems. Therefore, this keyboard has even quantum effects.
But as things looked like they were still in place and not disappear and appear, it was believed that there was a failure and it was pure mathematics without practical applications in the world. And incredibly Einstein
waste for that reason to believe it was a pure mathematical speculation
In developing his argument von Neumann had a small misconception because their training was in physics. But if it was broadly correct.
A mid- 50 Bell took advantage of that little conceptual error to develop his theorem which could put an end to the discussion vs.no-deterministic determinism, one consequence of his theorem is the inequality of Bell, said in his original work that;
In a theory in which the parameters (such as may correspond toIt is the basis of a new vision of reality that needed theory here is that say that the theory of relativity is local. Therefore the town is the base of the problem. Since any such hidden variable theory which Einstein had thought to be non-local
new forces) are added to quantum mechanics to determine
results of individual measurements, without changing
statistical predictions, has
to be a mechanism where the establishment of a
measuring device can influence the reading of another instrument, albeit remote
. Furthermore, the signal
involved must propagate instantaneously so the theory
would be a Lorentz invariant ***
(the theory that I Bohm hidden variables with non- was local therefore it provided a means signals could travel faster than light)
And the proof of impossibility of bell shows that the town is the only kind of mechanism that can account for these correlations. You can not have local realism of Einstein and quantum theory. There can be only local realism of Einstein and quantum theory. Another quality
Bell's theorem is that it is quantitative in the sense that the distinction between local realism and quantum theory is a proposition that can be checked.
local theories lead to different correlations in quantum theory. This difference is known as unequal Bell, and therefore something that is apparent in the laboratory.
Until then nobody had a clear idea of \u200b\u200bhow to do an experiment to see who was right (Einstein and Bohr) now knew that the results could mean.
thought
When performing these experiments believed to use the spin of the particle, a spin can not put into words because it is something very abstract, we can say that is another quality of angular momentum, we do not see everyday anything with that property.
At least the electron has spin ½, and therefore can point in two directions in the presence of a magnetic field.
The way was found spin is curious as it was found before I knew it was.
Otto Stern and Gerlach found space quantization silver atoms when heated in an oven and then extracted a beam of these atoms which passed through a strong magnetic field. The direction of this field is what defines the spatial axis (a particle with spin 1 has three directions) and as they knew nothing of the spin assumed that the trajectory of the silver atoms are randomly modified, and to prove the deposit left on a lamina. They were surprised when atoms are placed only in two thin lines separated by less than a fraction of a millimeter. And that nothing
physics I could explain classical.
As you see the spin of a particle was ideal for the experiment, since it has two related measures and the Heisenberg principle is known to accurately measure more uncertain is the other. And that made
Bohm, I plan to experiment with the spin, but technical problems were enormous, but is weighed out, but at that time nobody knew how to interpret the results, so the results were ambiguous ..
is easier to work with photons and focused on that aspect of new experiments. You could make a beam of polarized light in one direction say 45 ° degrees after posing as two polarizers who changed their polarization every hundredth of a million seconds, so the polarization was changed while the photons had not yet reached and discarded the communication between the detectors. This and subsequent course has been made completely rule out the version of Einstein. Naturally
completely rule out such experiments and determinism.
The world just keeps order because Planck's constant is very small, but that does not prevent affected.
Although this problem is resolved once Feymann richard said concerning these experiments
"we have always had great difficulty in understanding the picture that represents"
quantum mechanics. At least for me, since I'm old enough
I have not gotten to the point where all that stuff is obvious to me. More
well I get nervous with it. There has been obvious to me that there is no real problem
therefore suspect that there is a problem, but I'm not sure
there is no real problem
(This manner of expression was typical of Feymann )
This means that reality (and perhaps why the confusion of Feymann) is completely random and unpredictable. Since the end of the day are composed of atoms and these atoms is exposed to the eccentricities of the quantum world, more seriously, the electrons that are essential for communication between neurons and the same understanding of what we see.
the introduction to this post appears in Opuscrisis
philosophy, philosophy , physical, physical , science, science ,
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