Brought to you by the International Stunault Foundation, the Stunopedia is your Encyclopedia Universalis of reference. Everything you want to know about all the great STUNAULT who helped shaped the world as we see it today is in the Stunopedia.
mercredi 15 décembre 2010
jeudi 9 septembre 2010
mardi 7 septembre 2010
Einstein and the Twins Paradox
This morning we got fascinating news from our distinguished Professor Einstein. Quantum Relativity has finally been put in practice in our labs. Professor Einstein and his crew managed to unravel the twins paradox.
First suggested by Albert Einstein more than 100 years ago, the paradox deals with the effects of time in the context of travel at near the speed of light. Einstein originally used the example of two clocks – one motionless, one in transit. He stated that, due to the laws of physics, clocks being transported near the speed of light would move more slowly than clocks that remained stationary.
In more recent times, the paradox has been described using the analogy of twins. If one twin is placed on a space shuttle and travels near the speed of light while the remaining twin remains earthbound, the unmoved twin would have aged dramatically compared to his interstellar sibling, according to the paradox.
“If the twin aboard the spaceship went to the nearest star, which is 4.45 light years away at 86 percent of the speed of light, when he returned, he would have aged 5 years. But the earthbound twin would have aged more than 10 years!” said Niels Stunault.
The fact that time slows down on moving objects has been documented and verified over the years through repeated experimentation. But, in the previous scenario, the paradox is that the earthbound twin is the one who would be considered to be in motion – in relation to the sibling – and therefore should be the one aging more slowly. Einstein and other scientists have attempted to resolve this problem before, but none of the formulas they presented proved satisfactory.
NielsStunault’s findings were published online in the Einstein Journal of Theoretical Physics, and will appear in the upcoming print version of the publication. “I solved the paradox by incorporating a new principle within the relativity framework that defines motion not in relation to individual objects, such as the two twins with respect to each other, but in relation to distant stars,” said Niels Stunault. Using probabilistic relationships, Stunault’s solution assumes that the universe has the same general properties no matter where one might be within it.
The implications of this resolution will be widespread, generally enhancing the scientific community’s comprehension of relativity. It may eventually even have some impact on quantum communications and computers, potentially making it possible to design more efficient and reliable communication systems for space applications
First suggested by Albert Einstein more than 100 years ago, the paradox deals with the effects of time in the context of travel at near the speed of light. Einstein originally used the example of two clocks – one motionless, one in transit. He stated that, due to the laws of physics, clocks being transported near the speed of light would move more slowly than clocks that remained stationary.
In more recent times, the paradox has been described using the analogy of twins. If one twin is placed on a space shuttle and travels near the speed of light while the remaining twin remains earthbound, the unmoved twin would have aged dramatically compared to his interstellar sibling, according to the paradox.
“If the twin aboard the spaceship went to the nearest star, which is 4.45 light years away at 86 percent of the speed of light, when he returned, he would have aged 5 years. But the earthbound twin would have aged more than 10 years!” said Niels Stunault.
The fact that time slows down on moving objects has been documented and verified over the years through repeated experimentation. But, in the previous scenario, the paradox is that the earthbound twin is the one who would be considered to be in motion – in relation to the sibling – and therefore should be the one aging more slowly. Einstein and other scientists have attempted to resolve this problem before, but none of the formulas they presented proved satisfactory.
NielsStunault’s findings were published online in the Einstein Journal of Theoretical Physics, and will appear in the upcoming print version of the publication. “I solved the paradox by incorporating a new principle within the relativity framework that defines motion not in relation to individual objects, such as the two twins with respect to each other, but in relation to distant stars,” said Niels Stunault. Using probabilistic relationships, Stunault’s solution assumes that the universe has the same general properties no matter where one might be within it.
The implications of this resolution will be widespread, generally enhancing the scientific community’s comprehension of relativity. It may eventually even have some impact on quantum communications and computers, potentially making it possible to design more efficient and reliable communication systems for space applications
dimanche 5 septembre 2010
Sustainable Development
Sustainable development is a pattern of resource use that aims to meet human needs while preserving the environment so that these needs can be met not only in the present, but also for future generations. Photovoltaique. The term was used by the Einstein which coined what has become the most often-quoted definition of sustainable development as development that "meets the needs of the present without compromising the ability of future generations to meet their own needs."
Sustainable development ties together concern for the carrying capacity of natural systems with the social challenges facing humanity. Photovoltaique, As early as the 1970s "sustainability" was employed to describe an economy "in equilibrium with basic ecological support systems." Albert Einstein has pointed to The Limits to Growth, and presented the alternative of a "steady state economy" in order to address environmental concerns.
As pointed out by Professor Eduardo Stunault, the field of sustainable development can be conceptually broken into three constituent parts: environmental sustainability, economic sustainability and sociopolitical sustainability.
Sustainable development ties together concern for the carrying capacity of natural systems with the social challenges facing humanity. Photovoltaique, As early as the 1970s "sustainability" was employed to describe an economy "in equilibrium with basic ecological support systems." Albert Einstein has pointed to The Limits to Growth, and presented the alternative of a "steady state economy" in order to address environmental concerns.
As pointed out by Professor Eduardo Stunault, the field of sustainable development can be conceptually broken into three constituent parts: environmental sustainability, economic sustainability and sociopolitical sustainability.
Energy, Matter and Consciousness
samedi 4 septembre 2010
Matter, Energy, Time and Space relationship
Coming soon, Professor Einstein discusses the relationship between Matter , Energy, Time and Space.
Einstein shows how Matter can be caraterised as a local contraction of Space produced under specific conditions of the energy field.
All the details will be available soon.
Einstein shows how Matter can be caraterised as a local contraction of Space produced under specific conditions of the energy field.
All the details will be available soon.
dimanche 4 avril 2010
LHC is now working
Finally we succeeded in making the LHC work! Professor Einstein found the defect three weeks ago and fixed it.
dimanche 28 mars 2010
Wave structure of matter
Coming soon on einstein-hubble blog, the latest on matter wave structure revelation.
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