No--it is not string theory.
MDT moves, far, far beyond ST.
FOR IMMEDIATE RELEASE
THE PHYSICS TIMES
Princeton, NJ
Ed Witten was seen reading Woit's THE NOT EVEN WRONG while
simultaneuosly walking down Nassau Street in an inertial frame,
followed by his 137 postdocs, who were chanting in unison, as measured
by a stationy observer standing outside of PJ's Pancakes.
Some towards the front of the line started crying first (in the lab
frame), as they realized it was the end of a free ride for blind
obedience, and that for health benefits, trips to exotic conferences,
and summers off, they were going to have to start thinking on their
own.
The news spread far and wide. Up in Cambridge Lubos Motl changed his
snarky one star amazon review for NEW to a laudatory five star review,
so as to secure future NSF funding. And Michio Kaku added Woit as a
friend on his myspace page, after a call from his media team.
"I've seen darker days than this," Brian Greene smiled, recalling the
bar scene with the hot chick in his PBS mini-series. "I already got my
two string theory coffee table books out and am set. I know that I have
secured the Nobel--in literature."
Witten said, "It is time to make peace. The most important thing that
we ST, LQGers, and Not Even Wrongers must do is continue to oppose
physical theories, which unify disparate physical phenomena in the same
physical framework. Otherwise mathematical masturbation will fall out
of favor, and we will have to join the proletariat in working for a
living and taking what they're giving."
I wish Woit would have talked more about his views on the future of
physics. For it is not enough to criticize, and I would hate to see the
future of physics dominated by those untying the knots of String
Theory.
ST hath failed. Utterly and completely. It could not have failed more
with twice as much NSF fundining.
String Theory was the only game in town, and now there are two--ST &
deconstructing ST.
But there is another that actually unifies QM & SR & GR with a physical
model: MDT--it's physics!
Moving Dimensions Theory is in complete agreement with all experimental
tests and phenomena associated with special and general relativity. MDT
is in complete agreement with all physical phenomena as predicted by
quantum mechanics and demonstrated in extensive experiments. The genius
and novelty of MDT is that it presents a common physical model which
shows that phenomena from both relativity and quantum mechanics derive
from the same fundamental physical reality.
Nowhere does String Theory nor Loop Quantum Gravity account for quantum
entanglement nor relativistic time dilation. MDT shows these derive
from the same underlying physical reality. Nowhere does ST nor LQG
account for wave-particle duality nor relativistic length contraction.
MDT shows these derive from the same underlying physical reality.
Nowhere does ST nor LQG account for the constant speed of light, nor
the independence of the speed of light on the velocity of the source,
nor entropy, nor time's arrow. MDT shows these derive from the same
underlying physical reality. Nowhere does String Theory nor Loop
Quantum Gravity resolve the paradox of Godel's Block Universe which
troubled Eisntein. MDT resolves this paradox.
Simply put, MDT replaces the contemporary none-theories with a physical
theory, complete with a simple postulate that unifies formerly
disparate phenomena within a simple context.
THE GENERAL POSTULATE
OF DYNAMIC DIMENSIONS THEORY
The fourth dimension is expanding relative to the three spatial
dimensions.
If at first the idea is not absurd, then there is no hope for it.
-Albert Einstein
But after thirty years of the absurdity of String Theory, millions of
dollars from the NSF, and billions of complementary dollars from tax
and tuition and endowments spent on killing physics and indie
physicists, perhaps it's time for something that makes sense-for a
physical theory that actually accounts for a deeper reality from which
both Relativity and Quantum Mechanics, from which time, entanglement,
gravity, entropy, interference, the constant speed of light,
relativistic time dilation, length contraction, and the equivalence of
mass and energy emerge. It's time for Moving Dimensions Theory-MDT.
-The Physicist with No Name
I know what you're thinking. Did he say there were thirty-six
dimensions or only thirty-five? Well to tell you the truth in all this
excitement I've kinda lost track myself. But being this is a .45
Revolver-the most powerful hand gun in the world and would blow your
head clean off, you've got to ask yourself one question--Do I feel
lucky? Well, do ya punk!? -Clint Eastwood
I'm interested in the fact that the less secure a man is, the more
likely he is to have extreme prejudice. -Clint Eastwood
Go ahead. Make my day. -Clint Eastwood
MDT IN BRIEF
Without further adieu, allow me to present the beauty and elegance of
MDT by showing both its simplicity and far-reaching ability to account
for and answer fundamental questions. All of the below will be
elaborated on throughout the book.
Questions Addressed by MDT:
Why does light have a maximum, constant speed independent of the
source? The fourth dimension is expanding relative to the three spatial
dimensions. A photon is momenergy that exists orthogonal to the three
spatial dimensions. It is carried along by the expanding fourth
dimension. So no matter how fast the source is moving when the photon
is emitted, the photon travels at the rate with which the fourth
dimension is expanding relative to the three spatial dimensions. Thus c
is always independent of the movement of the source.
Why are light and energy quantized? The fourth dimension is expanding
in a quantized manner relative to the three spatial dimensions. Light
and energy are matter rotated completely into the fourth expanding
dimension, and as it expands in a quantized manner, light and energy
are thus quantized.
Why is the velocity of light constant in all frames? Time is an
emergent phenomena that arises because the fourth dimension is
expanding relative to the three spatial dimensions. The flow of time is
inextricably wed to the emission and propagation of photons. In all
biological, mechanical, and electronic clocks, the emission and
propagation of photons is what determines time. The velocity of light
is always measured with respect to time, which is inextricably linked
to the velocity of light. This tautology ensures that the velocity of
light, measured relative to the velocity of light, will always be the
same.
How can photons display both wave and particle properties? The
fundamental photon propagates as a spherical wave-front, surfing the
fourth expanding dimension. This is because the fourth expanding
dimension appears as a spherical wavefront as it expands through the
three spatial dimensions. The act of measurement localizes the photon's
momenergy, taking it out of the expanding fourth dimension and trapping
it in the three stationary spatial dimensions, and it appears as a
localized particle, trapped by electrons as it blackens a grain on a
photographic plate.
How can matter display both wave and particle properties? The
fundamental electron is abuzz with photons. Photons are continually
being emitted into the fourth expanding dimension and reabsorbed by the
electron. The continual dance with these photons gives the electron its
wave properties. Nothing moves without photons which up the net
probability that the combine momenergy will be in the expanding fourth
dimension. The more photons one adds to an object, the greater the
chance it has of existing in the expanding fourth dimension, and thus
it moves.
Why are there non-local effects in quantum mechanics? The fourth
dimension is expanding relative to the three spatial dimensions. That
means that what begins as a point in the fourth dimension is a sphere
with a 186,000 mile radius one second later. So it is that the entire
spherical wavefront of the photon exists in the exact same place in
time. Hence the non-locality observed in double slit experiments, the
EPR effect, and quantum entanglement. Take two interacting spin ½
photons and let them propagate at the speed of c in opposite
directions. They are yet at the exact same place in time! And too, they
are yet in the exact same place of the fourth expanding dimension.
Why does time stop at the speed of light?
Time depends on the emission and propagation of photons. If no photons
are emitted, time does not occur. This holds true whether the clock is
an unwinding copper spring, a biological system such as a heart, or an
oscillating quartz crystal. No photom emission=no time! As an object
approaches the speed of light, its ability to emit photons without
reabsorbing them diminishes. An object traveling at the speed of light
cannot emit a photon.
How come a photon does not age?
A photon represents momenergy rotated entirely into the fourth
expanding dimension. A photon stays the exact same place in the fourth
dimension, no matter how far it travels. A photon stays the exact same
place in time, no matter how far it travels. Again, time is not the
fourth dimension, but in inherits properties of the fourth dimension.
Why are inertial mass and gravitational mass the same thing?
Why do moving bodies exhibit length contraction?
Movement is always accompanied by a shortening in length. This is
because the only way for a body to move is for it to undergo a rotation
into the forth dimension, which is expanding relative to the three
spatial dimensions. The more energy an electron has, the more photons
it possesses, and the higher probability it exists in the expanding
fourth dimension. Hence its length appears contracted as perceived from
the three spatial dimensions.
Why are mass and energy equivalent?
The fourth dimension is expanding relative to the three spatial
dimensions. That means that a baseball sitting on a lab table
stationary in our three-dimensional inertial reference frame, is yet
moving at a fantastic velocity relative to the fourth dimension. Hence
every seemingly stationary mass has a vast energy, as given by E=mc2.
In a nuclear reaction matter is rotated into the expanding fourth
dimension, appearing as high-enegry photons (gamma rays) propagating at
the same velocity of the fourth expanding dimension-c.
Why does time's arrow point in the direction it points in? The fourth
dimension is expanding relative to the three spatial dimensions. Hence
every photon naturally expands in a spherically symmetric manner. Hence
every electron, or piece of matter that interacts with photons, is
naturally carried outward from a central point in a spherically
symmetric manner. Hence the particles in a drop of dye in a swimming
pool dissipate in a spherically symmetric manner, and are never
reunited. Hence time's arrow and entropy.
Why do photons appear as spherically-symmetric wavefronts traveling at
a velocity c? The fourth dimension is expanding relative to the three
spatial dimensions at the velocity c. Hence photons, which are tiny
packets of momenergy rotated entirely into the fourth dimension, appear
as spherically-symmetric wavefronts propagating at the velocity c.
Why is there a minus sign in the following metric?
x^2+y^2+z^2-c^2t^2=s^2
The fourth dimension is expanding relative to the three spatial
dimensions at the velocity c. Hence the only way to stay still in the
space-time continuum, and to achieve a 0 interval, is to move with the
velocity of light.
What deeper reality underlies Einstein's postulates of relativity?
The fourth dimension is expanding relative to the three spatial
dimensions at the velocity c. This single postulate assures that the
speed of light is constant for all observers and that the laws of
physics are the same in all inertial frames.
What deeper reality underlies Newton's laws?
Newton's laws are an approximation of relativity and quantum mechanics,
and as MDT underlies QM & relativity, it underlies Newton's laws.
Why is an increase in velocity always accompanied by a decrease in
length as measured by an external observer? All increases in velocity
are accompanied by rotations into the fourth dimension. All particles
can be represented by momenergy 4-vectors. The greater the momenrgy
component in the expanding fourth dimension, the greater the velocity
and speed of the particle. Rest mass is the invariant here. It never
changes. It prefers the three spatial dimensions. In order for it to
move, one must gain energy in the form of photons. These photons prefer
the fourth expanding dimension. The more photons one adds, the greater
the component of the momenergy 4-vector that appears in the fourth
expanding dimension, the more energy the particle has, the shorter it
appears, and the faster it moves.
How MDT Is Aiding Fellow Physicists
"The conclusions from Bell's theorem are philosophically startling;
either one must totally abandon the realistic philosophy of most
working scientists or dramatically revise our concept of space-time."
-Abner Shimony and John Clauser
Moving Dimensions Theory provides this new concept of space-time. The
vast ambitions of most tenure-track physicists, including string
theorists and LQG hypers, causes them to focus on irrelevant, minute
questions, and thus, though funded by millions for over thirty years,
have not yet been able to string the bow. Deeper, true physicists, such
as Abner Shimony and John Clauser are alert to the fact that physics
need news ideas.
The expanding fourth dimension gives rise to non-local phenomena and
quantum entanglement, as the expanding fourth dimension means that two
events separated in the three spatial dimensions can yet appear to be
at the exact same place in the fourth dimension. MDT thus provides the
new concept of space-time.
"For me, then, this is the real problem with quantum theory: the
apparently essential conflict between any sharp formulation and
fundamental relativity. It may be that a real synthesis of quantum and
relativity theories requires not just technical developments but
radical conceptual renewal." -John Bell
Moving Dimensions Theory provides this radical conceptual renewal. The
expanding fourth dimension gives rise to non-local phenomena and
quantum entanglement, as the expanding fourth dimension means that two
events separated in the three spatial dimensions can yet appear to be
at the exact same place in the fourth dimension. MDT thus provides the
new concept of space-time.
"Entanglement is not one but rather the characteristic trait of quantum
mechanics." -Erwin Schrodinger
The expanding fourth dimension gives rise to non-local phenomena and
quantum entanglement, as the expanding fourth dimension means that two
events separated in the three spatial dimensions can yet be at the
exact same place in the fourth dimension. MDT thus provides the new
concept of space-time.
"For me, then, this is the real problem with quantum theory: the
apparently essential conflict between any sharp formulation and
fundamental relativity. It may be that a real synthesis of quantum and
relativity theories requires not just technical developments but
radical conceptual renewal." -John Bell
Moving Dimensions Theory provides this radical conceptual renewal. The
expanding fourth dimension gives rise to non-local phenomena and
quantum entanglement, as the expanding fourth dimension means that two
events separated in the three spatial dimensions can yet appear to be
at the exact same place in the fourth dimension. MDT thus provides the
new concept of space-time.
"Entanglement is not one but rather the characteristic trait of quantum
mechanics." -Erwin Schrodinger
The expanding fourth dimension gives rise to non-local phenomena and
quantum entanglement, as the expanding fourth dimension means that two
events separated in the three spatial dimensions can yet be at the
exact same place in the fourth dimension. MDT thus provides the new
concept of space-time.
http://physicsmathforums.com
Immortalist wrote:
>>
>> String theory is like a 50 year old woman wearing too much lipstick.
>> -Laughlin, Nobel Laureate
>>
>>
>> Actually, I would not even be prepared to call string theory a
>> "theory"rather a "model" or not even that: just a hunch. After
>> all, a theory should come together with instructions on how to deal
>> with it to identify the things one wishes to describe, in our case the
>> elementary particles, and one should, at least in principle, be able to
>>
>> formulate the rules for calculating the properties of these particles,
>> and how to make new predictions for them. Imagine that I give you a
>> chair, while explaining that the legs are still missing, and that the
>> seat, back and armrest will perhaps be delivered soon; whatever I did
>> give you, can I still call it a chair? -Gerard 't Hooft, Nobel
>> Laureate in String Theory
>>
>>
>> "It is tragic, but now, we have the string theorists, thousands of
>> them, that also dream of explaining all the features of nature. They
>> just celebrated the 20th anniversary of superstring theory. So when one
>>
>> person spends 30 years, it's a waste, but when thousands waste 20
>> years in modern day, they celebrate with champagne. I find that
>> curious." Sheldon Glashow, Nobel Laureate
>>
>>
>> I don't like that they're not calculating anything. I don't like
>> that they don't check their ideas. I don't like that for anything
>> that disagrees with a n experiment, they cook up an explanation-a
>> fix-up to say, "Well, it might be true." For example, the theory
>> requires ten dimensions. Well, maybe there's a way of wrapping up six
>> of the dimensions. Yes, that's all possible mathematically, but why
>> not seven? When they write their equation, the equation should decide
>> how many of these things get wrapped up, not the desire to agree with
>> experiment. In other words, there's no reason whatsoever in
>> superstring theory that it isn't eight out of the ten dimensions that
>> get wrapped up and that the result is only two dimensions, which would
>> be completely in disagreement with experience. So the fact that it
>> might disagree with experience is very tenuous, it doesn't produce
>> anything; it has to be excused most of the time. It doesn't look
>> right. -Richard Feynman, Nobel Laureate in Physics
>>
>> But superstring physicists have not yet shown that theory really works.
>>
>> They cannot demonstrate that the standard theory is a logical outcome
>> of string theory. They cannot even be sure that their formalism
>> includes a description of such things as protons and electrons. And
>> they have not yet made even one teeny-tiny experimental prediction.
>> Worst of all, superstring theory does not follow as a logical
>> consequence of some appealing set of hypotheses about nature. Why, you
>> may ask, do the string theorists insist space is none-dimensional?
>> Simply because string theory doesn't make sense in any other kind of
>> space. Sheldon Glashow, Nobel Laureate in Physics
>>
>>
http://physicsmathforums.com
>> A great research project for grad students and postdocs would be to
>> show how both the space-time metric and the Schrödinger equation arise
>>
>> from the first postulate of MDT:
>>
>> The Fourth Dimension is expanding relative to the Three Spatial
>> Dimensions.
>>
>>
>> While String Theory is absorbing the tens of millions of NSF funds and
>> the accompanying billions of local tax and tuition dollars:
>>
>>
>>
http://nsf.gov/awardsearch/progSearch.do;jsessionid=B6AE5664DB11367AE...
>>
>>
>>
>> The best way to raise funds for alternative theories is t-shirts:
>>
http://www.cafepress.com/autumnrangers.72464949
>>
>>
>> THE GENERAL POSTULATE
>> OF DYNAMIC DIMENSIONS THEORY
>> The fourth dimension is expanding relative to the three spatial
>> dimensions.
>>
>>
>> THE SPECIFIC POSTULATE
>> OF DYNAMIC DIMENSIONS THEORY
>> The fourth dimension is expanding relative to the three spatial
>> dimensions at the rate of c in units of the Planck length, giving rise
>> to time and all classical, quantum mechanical, and relativistic
>> phenomena.
>>
>>
>> MDT IN BRIEF
>> Without further adieu, allow me to present the beauty and elegance of
>> MDT by showing both its simplicity and far-reaching ability to account
>> for and answer fundamental questions. All of the below will be
>> elaborated on throughout the book.
>>
>>
>> Questions Addressed by MDT:
>>
>>
>> Why does light have a maximum, constant speed independent of the
>> source? The fourth dimension is expanding relative to the three
>> spatial dimensions. A photon is momenergy that exists orthogonal to
>> the three spatial dimensions. It is carried along by the expanding
>> fourth dimension. So no matter how fast the source is moving when the
>> photon is emitted, the photon travels at the rate with which the fourth
>>
>> dimension is expanding relative to the three spatial dimensions. Thus c
>>
>> is always independent of the movement of the source.
>>
>>
>> Why are light and energy quantized? The fourth dimension is expanding
>> in a quantized manner relative to the three spatial dimensions. Light
>> and energy are matter rotated completely into the fourth expanding
>> dimension, and as it expands in a quantized manner, light and energy
>> are thus quantized.
>>
>>
>> Why is the velocity of light constant in all frames? Time is an
>> emergent phenomena that arises because the fourth dimension is
>> expanding relative to the three spatial dimensions. The flow of time
>> is inextricably wed to the emission and propagation of photons. In all
>>
>> biological, mechanical, and electronic clocks, the emission and
>> propagation of photons is what determines time. The velocity of light
>> is always measured with respect to time, which is inextricably linked
>> to the velocity of light. This tautology ensures that the velocity of
>> light, measured relative to the velocity of light, will always be the
>> same.
>>
>>
>> How can photons display both wave and particle properties? The
>> fundamental photon propagates as a spherical wave-front, surfing the
>> fourth expanding dimension. This is because the fourth expanding
>> dimension appears as a spherical wavefront as it expands through the
>> three spatial dimensions. The act of measurement localizes the
>> photon's momenergy, taking it out of the expanding fourth dimension
>> and trapping it in the three stationary spatial dimensions, and it
>> appears as a localized particle, trapped by electrons as it blackens a
>> grain on a photographic plate.
>>
>>
>> How can matter display both wave and particle properties? The
>> fundamental electron is abuzz with photons. Photons are continually
>> being emitted into the fourth expanding dimension and reabsorbed by the
>>
>> electron. The continual dance with these photons gives the electron
>> its wave properties. Nothing moves without photons which up the net
>> probability that the combine momenergy will be in the expanding fourth
>> dimension. The more photons one adds to an object, the greater the
>> chance it has of existing in the expanding fourth dimension, and thus
>> it moves.
>>
>>
>> Why are there non-local effects in quantum mechanics? The fourth
>> dimension is expanding relative to the three spatial dimensions. That
>> means that what begins as a point in the fourth dimension is a sphere
>> with a 186,000 mile radius one second later. So it is that the entire
>> spherical wavefront of the photon exists in the exact same place in
>> time. Hence the non-locality observed in double slit experiments, the
>> EPR effect, and quantum entanglement. Take two interacting spin ½
>> photons and let them propagate at the speed of c in opposite
>> directions. They are yet at the exact same place in time! And too,
>> they are yet in the exact same place of the fourth expanding dimension.
>>
>>
>>
>> Why does time stop at the speed of light?
>> Time depends on the emission and propagation of photons. If no photons
>>
>> are emitted, time does not occur. This holds true whether the clock is
>> an unwinding copper spring, a biological system such as a heart, or an
>> oscillating quartz crystal. No photom emission=no time! As an object
>> approaches the speed of light, its ability to emit photons without
>> reabsorbing them diminishes. An object traveling at the speed of light
>>
>> cannot emit a photon.
>>
>>
>> How come a photon does not age?
>> A photon represents momenergy rotated entirely into the fourth
>> expanding dimension. A photon stays the exact same place in the fourth
>>
>> dimension, no matter how far it travels. A photon stays the exact same
>>
>> place in time, no matter how far it travels. Again, time is not the
>> fourth dimension, but in inherits properties of the fourth dimension.
>>
>>
>> Why are inertial mass and gravitational mass the same thing?
>>
>>
>> Why do moving bodies exhibit length contraction?
>> Movement is always accompanied by a shortening in length. This is
>> because the only way for a body to move is for it to undergo a rotation
>>
>> into the forth dimension, which is expanding relative to the three
>> spatial dimensions. The more energy an electron has, the more photons
>> it possesses, and the higher probability it exists in the expanding
>> fourth dimension. Hence its length appears contracted as perceived
>> from the three spatial dimensions.
>>
>>
>> Why are mass and energy equivalent?
>> The fourth dimension is expanding relative to the three spatial
>> dimensions. That means that a baseball sitting on a lab table
>> stationary in our three-dimensional inertial reference frame, is yet
>> moving at a fantastic velocity relative to the fourth dimension. Hence
>>
>> every seemingly stationary mass has a vast energy, as given by E=mc2.
>> In a nuclear reaction matter is rotated into the expanding fourth
>> dimension, appearing as high-enegry photons (gamma rays) propagating at
>>
>> the same velocity of the fourth expanding dimension-c.
>>
>>
>> Why does time's arrow point in the direction it points in? The fourth
>> dimension is expanding relative to the three spatial dimensions. Hence
>>
>> every photon naturally expands in a spherically symmetric manner.
>> Hence every electron, or piece of matter that interacts with photons,
>> is naturally carried outward from a central point in a spherically
>> symmetric manner. Hence the particles in a drop of dye in a swimming
>> pool dissipate in a spherically symmetric manner, and are never
>> reunited. Hence time's arrow and entropy.
>>
>>
>> Why do photons appear as spherically-symmetric wavefronts traveling at
>> a velocity c? The fourth dimension is expanding relative to the three
>> spatial dimensions at the velocity c. Hence photons, which are tiny
>> packets of momenergy rotated entirely into the fourth dimension, appear
>>
>> as spherically-symmetric wavefronts propagating at the velocity c.
>>
>>
>> Why is there a minus sign in the following metric?
>> x^2+y^2+z^2-c^2t^2=s^2
>> The fourth dimension is expanding relative to the three spatial
>> dimensions at the velocity c. Hence the only way to stay still in the
>> space-time continuum, and to achieve a 0 interval, is to move with the
>> velocity of light.
>>
>>
>> What deeper reality underlies Einstein's postulates of relativity?
>> The fourth dimension is expanding relative to the three spatial
>> dimensions at the velocity c. This single postulate assures that the
>> speed of light is constant for all observers and that the laws of
>> physics are the same in all inertial frames.
>>
>>
>> What deeper reality underlies Newton's laws?
>> Newton's laws are an approximation of relativity and quantum
>> mechanics, and as MDT underlies QM & relativity, it underlies
>> Newton's laws.
>>
>>
>> Why is an increase in velocity always accompanied by a decrease in
>> length as measured by an external observer? All increases in velocity
>> are accompanied by rotations into the fourth dimension. All
>> particles can be represented by momenergy 4-vectors. The greater the
>>
>> momenrgy component in the expanding fourth dimension, the greater the
>> velocity and speed of the particle. Rest mass is the invariant here.
>> It never changes. It prefers the three spatial dimensions. In order
>> for it to move, one must gain energy in the form of photons. These
>> photons prefer the fourth expanding dimension. The more photons one
>> adds, the greater the component of the momenergy 4-vector that appears
>> in the fourth expanding dimension, the more energy the particle has,
>> the shorter it appears, and the faster it moves.
>>
>>
>> How MDT Is Aiding Fellow Physicists
>>
>>
>> "The conclusions from Bell's theorem are philosophically startling;
>> either one must totally abandon the realistic philosophy of most
>> working scientists or dramatically revise our concept of space-time."
>> -Abner Shimony and John Clauser
>>
>>
>> Moving Dimensions Theory provides this new concept of space-time. The
>> vast ambitions of most tenure-track physicists, including string
>> theorists and LQG hypers, causes them to focus on irrelevant, minute
>> questions, and thus, though funded by millions for over thirty years,
>> have not yet been able to string the bow. Deeper, true physicists,
>> such as Abner Shimony and John Clauser are alert to the fact that
>> physics need news ideas.
>> The expanding fourth dimension gives rise to non-local phenomena and
>> quantum entanglement, as the expanding fourth dimension means that two
>> events separated in the three spatial dimensions can yet appear to be
>> at the exact same place in the fourth dimension. MDT thus provides the
>>
>> new concept of space-time.
>>
>>
>> "For me, then, this is the real problem with quantum theory: the
>> apparently essential conflict between any sharp formulation and
>> fundamental relativity. It may be that a real synthesis of quantum and
>> relativity theories requires not just technical developments but
>> radical conceptual renewal." -John Bell
>>
>>
>> Moving Dimensions Theory provides this radical conceptual renewal. The
>> expanding fourth dimension gives rise to non-local phenomena and
>> quantum entanglement, as the expanding fourth dimension means that two
>> events separated in the three spatial dimensions can yet appear to be
>> at the exact same place in the fourth dimension. MDT thus provides the
>>
>> new concept of space-time.
>>
>>
>> "Entanglement is not one but rather the characteristic trait of quantum
>>
>> mechanics." -Erwin Schrodinger
>>
>>
>> The expanding fourth dimension gives rise to non-local phenomena and
>> quantum entanglement, as the expanding fourth dimension means that two
>> events separated in the three spatial dimensions can yet be at the
>> exact same place in the fourth dimension. MDT thus provides the new
>> concept of space-time.
>>
>>
>> "The discovery of the quantum of action shows us not only the natural
>> limitation of classical physics, but, by throwing a new light upon the
>> old philsophical problem of the objective existence of phenomena
>> indepedently of our observations, confronts us with a situation
>> hitherto unknown in natural science." -Niels Bohr
>>
>>
>> The expanding fourth dimension gives rise to non-local phenomena and
>> quantum entanglement, as the expanding fourth dimension means that two
>> events separated in the three spatial dimensions can yet appear to be
>> at the exact same place in the fourth dimension. MDT thus provides the
>>
>> new concept of space-time.
>>
>>
>> "I think we need a new way to look at time, not either Quantum
>> Mechanics or Relativity." -Roger Penrose
>>
>>
>> Time is an emergent property of a fourth dimension that is expanding
>> relative to the three spatial dimensions. Thus it inherits properties
>> of the fourth expanding dimension, but time is not the fourth expanding
>>
>> dimension. MDT underlies time and explains time on a more fundamental
>> level.
>>
>>
>> "Should we be prepared to see some day a new structure for the
>> foundations of physics that does away with time? . . . Yes, because
>> 'time' is in trouble." -John Wheeler
>>
>>
>> Time is an emergent property of a fourth dimension that is expanding
>> relative to the three spatial dimensions. Thus it inherits properties
>> of the fourth expanding dimension, but time is not the fourth expanding
>>
>> dimension. MDT underlies time and explains time on a more fundamental
>> level.
>>
>>
>> "Time is clothed in a different garment for each role it plays in our
>> thinking." -John Wheeler
>>
>>
>> Time is an emergent property of a fourth dimension that is expanding
>> relative to the three spatial dimensions. Thus it inherits properties
>> of the fourth expanding dimension, but time is not the fourth expanding
>>
>> dimension. MDT underlies time and explains time on a more fundamental
>> level.
>>
>>
>> "The word time came not from heaven but form the mouth of man." -John
>> Wheeler
>>
>>
>> Time is an emergent property of a fourth dimension that is expanding
>> relative to the three spatial dimensions. Thus it inherits properties
>> of the fourth expanding dimension, but time is not the fourth expanding
>>
>> dimension. MDT underlies time and explains time on a more fundamental
>> level.
>>
>>
>> "My ideas about time all developed from the realization that if nothing
>>
>> were to change we could not say that times passes. Change is primary,
>> time, if it exists at all, is something we deduce from it. My Italian
>> collaborator Bruno Bertotti and I found that the deep structure of
>> Einstein's general theory of relativity does correspond to this truth.
>> It is telling us that time does not exist as an independent thing and
>> that change is indeed primary. However, this is in the framework of
>> so-called classical physics, the form of physics that developed before
>> quantum mechanics was discovered. When the idea that time has no
>> independent existence is combined with the basic facts of quantum
>> mechanics in the simplest possible way, the implications are startling.
>>
>> . .The quantum universe is static. Only timeless Nows exist. The
>> quantum rules give them different probabilities. We experience the most
>>
>> probable Nows as individual instants of time. The appearance of motion
>> and a flow of time are both illusions created by very special structure
>>
>> of the instants that we experience." -Julian Barbour,
>>
http://www.platonia.com/ideas.html
>>
>>
>> Time is an emergent property of a fourth dimension that is expanding
>> relative to the three spatial dimensions. Thus it inherits properties
>> of the fourth expanding dimension, but time is not the fourth expanding
>>
>> dimension. MDT underlies time and explains time on a more fundamental
>> level.
>>
>>
>> "The mystery of time's arrow is the oldest problem in science
>> concerning the nature of time, predating even the theory of
>> relativity." -Paul Davies, About Time
>>
>>
>> MDT accounts for Time's Arrow: The fourth dimension is expanding
>> relative to the three spatial dimensions. Photons are momenergy
>> rotated entirely into this expanding fourth dimension. Hence any group
>>
>> of photons originating from a central point will be found distant to
>> one-another. Hence every photon naturally expands in a spherically
>> symmetric manner. Hence every electron, or piece of matter, is
>> naturally carried outward from a central point in a spherically
>> symmetric manner. Hence a drop of dye in a swimming pool dissipates in
>>
>> a spherically symmetric manner, and is never reunited. Hence time's
>> arrow and entropy.
>>
>>
>> Moving Dimensions Theory & On The Advancement Of Physics
>>
>>
>> Physics has been furthered far more often by a rugged individual
>> acknowledging the simple and obvious in a pursuit of the truth than
>> book-keepers-in-training playing games in the abstruse in pursuit of
>> tenure. The advancement of physics has ever depended far more on
>> logic, reason, and Truth than government grants, tenure, group think,
>> peer-reviewed journals, and aging bureaucracies. "That is the way
>> things are because that is the way things are," has lead to far more
>> physics than the contemporary, "things can't be that way because the
>> math dictates that we live in thirty-three dimensions and four are
>> curled up, and that is what NSF is funding."
>>
>>
>> When nobody could measure nor detect the supposed ether, Einstein
>> proclaimed, "there is no ether." When experiments showed that light
>> existed only in quantized packets, Einstein proclaimed that light only
>> existed in quantized packets, and he won the Nobel Prize. When spectra
>> from atoms showed discreet energies, Niels Bohr proclaimed that
>> electrons orbits were quantized, and he received a Nobel Prize. When
>> Maxwell's Equations had a recurring constant, Maxwell used c to denote
>> it, and Einstein proclaimed that the speed of light must be constant
>> for all observers-and so Special Relativity was born. When Einstein
>> juxtaposed objects falling towards the earth getting closer together
>> with the fact that two people starting at the equator, walking on
>> originally parallel lines of longitude towards the North Pole, would
>> come together because they were walking on a curve surface, Einstein
>> proclaimed that the space-time around a massive object must also be
>> curved. This along with Einstein's realization that the force of
>> gravity would be rendered null in free-fall, lead to General
>> Relativity.
>>
>>
>> And so it is that in the above paragraph you have the roots of the
>> greatest achievements of physics in the past 100+ years, dwarfing
>> String Theory, Loop Quantum Gravity, and thousands of their variatons,
>> which deal in the abstruse, complicated, muddled, and mythological
>> worlds which are safe from physics simple rigor.
>>
>>
>> Moving Dimensions Theory returns us to simpler times. It starts with
>> the simple and keeps it simple. Light travels with a maximum velocity
>> of c, because the fourth dimension is expanding at a rate relative to
>> the three spatial dimensions at the velocity of c. A photon expands
>> through space in a spherically symmetric manner. This is because the
>> fourth dimension expands through the three spatial dimensions in a
>> spherically symmetric manner. Energy and mass are equivalent, expressed
>>
>> by E=mc^2, because energy is nothing more than mass rotated into the
>> expanding fourth dimension. The Einstein-Podolsky-Rosen effect (EPR)
>> effect, which calls instantaneous action at a distance "spooky," can be
>>
>> accounted for by the expanding dimension-as a point expands, it is yet
>> a single locale in that dimension, and hence though separated by
>> distance in space, interacting particles may be in the same place in
>> the time dimension, and hence connected. The null vector of the photon,
>>
>> which remains 0 no matter how far the photon travels in space-time, may
>>
>> be accounted for by the fact that the fourth dimension is moving, and
>> thus the only way to stay still in the four dimensions is to move with
>> along with the expanding dimension. In Lorentzian Transformations,
>> there is no way for an object to be rotated into the time dimension
>> without it moving-this can be explained by the fact that the time
>> dimension is expanding. All wave-particle duality can be seen as the
>> result of the universe's existence upon a reality that has three
>> stationary spatial dimensions and one expanding time dimension-when
>> matter exists in the stationary dimensions, it is seen as mass, or a
>> particle. When matter exists in the time dimension it is seen as wave,
>> or a photon, or energy. Depending how we choose to observer matter
>> determines whether we observe its wave or particle properties. Photons
>> are quantized bundles of energy that propagate at the velocity of
>> c-this is because the fourth dimension is expanding relative to the
>> three spatial dimensions in a quantized manner, in units of Planck's
>> length at the rate of c. The Second Law of Thermodyamics, or the law of
>>
>> Entropy, states that the universe tends towards disorder. This is
>> because the fourth dimension is expanding in a spherically symmetric
>> manner, constantly carrying all photons and interacting particles away
>> from one another-thus a drop of food coloring in a pool will be carried
>>
>> outward and evenly distributed. In 1949 Godel published a paper showing
>>
>> that within the theory of relativity, time as we understand it, does
>> not exist. Einstein recognized Godel's paper as "an important
>> contribution to the general theory of relativity," and since then
>> physicists have not been able to find any logical shortcomings in
>> Godel's work, and nobody has been able to account for the existence of
>> time. But the Theory of Moving Dimensions accounts for time as we know
>> it by showing that it is an emergent property of the underlying
>> dimension's intrinsic relative movement. Relativity becomes
>> increasingly exact at long-length scales but fails at short ones
>> because space-time itself is quantized, as the time dimension is
>> expanding in units of the Planck length.
>>
>>
>> The concept of general relativity's smooth geometry, at large scales,
>> disappears on short-distance scales-this has been a problem to string
>> theorists, but only because they were never bold enough to recognize
>> that's the way it is because that's the way it is. Realizing this might
>>
>> have lead one of them to see that the fourth dimension is expanding at
>> a rate of c relative to the three spatial dimensions. So it is seen
>> that Moving Dimensions Theory offers a simple model upon which all
>> known phenomena of Relativity and Quantum Mechanics may rest. And
>> because the underlying architecture of the universe is
>> quantized-because the fourth dimension expands at the rate of c in
>> units of the Planck length relative to the three spatial dimensions,
>> quantum mechanics works for the small, while general relativity works
>> for the large. That is the way it is because that is the way it
>> is-this was the realization that lead to the postulate of MDT: the
>> fourth dimension is expanding relative to the three spatial dimensions.
>>
>>
>>
>> Are New Ideas Important in Physics?
>>
>>
>> String theorists don't make predictions, they make excuses.
>> -Richard Feynman
>>
>>
>> An important scientific innovation rarely makes its way by gradually
>> winning over and converting its opponents: What does happen is that the
>>
>> opponents gradually die out. -Max Planck
>>
>>
>> ...I do feel strongly that this is nonsense! ...I think all this
>> superstring stuff is crazy and is in the wrong direction. ... I don't
>> like it that they're not calculating anything. ...why are the masses
>> of the various particles such as quarks what they are? All these
>> numbers ... have no explanations in these string theories - absolutely
>> none! ... -Richard Feynman in Davies and Brown, Superstrings,
>> Cambridge 1988, pp. 194-195.
>>
>>
>> String theory is the Enron of physics, and like Enron, it is but the
>> tip of the iceberg of the widespread group-think decline. Where Enron
>> and Worldcom and Global Crossing lied to plunder pensions and
>> investors, String Theory lies to plunder tax and tuition dollars. With
>>
>> millions of NSF dollars at stake, and billions more in the way of tax
>> and tuition, fashion and group-think are now held superior to logic and
>>
>> reason in physics. And as in all totalitarian systems which hold
>> themselves above logic, reason, truth, justice, and practicality, the
>> worst are promoted, while the best are exiled. The group-think
>> sycophants get the postdocs, while the indie physicists must forage on
>> their own.
>> Are new ideas important in physics as prominent physicists so often
>> proclaim? If so, then why are young scientists with new ideas based in
>>
>> logic, reason, and reality, so often castigated, impugned, and
>> crucified while those who quietly, passively, and uncreatively accept
>> the nonsensical, none-physics, crackpot mythologies of String Theory
>> and M-Theory rewarded with vast salaries, health benefits, TV shows,
>> book deals, and tenure?
>> I would very much like to discuss my new theory here, but I am
>> forbidden from even mentioning its name, as the String Theorists and
>> other fashionistas do not approve of theories with postulates based in
>> logic and reason. And so their multi-billion dollar myth is perpetuated
>>
>> at the expense of logic, reason, and physics.
>> But time is on our side. And what is time? I am not allowed to say, as
>> my theory is banned for the moment.
>> The current state of physics has several Prominent Physicsists and
>> Great Thinkers spinning in their graves:
>> The world we have made as a result of the level of thinking we have
>> done thus far creates problems we cannot solve at the same level of
>> thinking at which we created them. -Albert Einstein
>>
>>
>> Common sense is the collection of prejudices acquired by the age of
>> eighteen. -Albert Einstein
>>
>>
>> The mere formulation of a problem is far more often essential than its
>> solution, which may be merely a matter of mathematical or experimental
>> skill. To raise new questions, new possibilities, to regard old
>> problems from a new angle requires creative imagination and marks real
>> advances in science. -Albert Einstein
>>
>>
>> Great spirits have always encountered violent opposition from mediocre
>> minds. -Albert Einstein
>>
>>
>> Albert Einstein's three rules of work:
>> 1. Out of clutter, find simplicity.
>> 2. From discord, find harmony.
>> 3. In the middle of difficulty lies opportunity
>>
>>
>> Everything should be made as simple as possible, but not simpler.
>> -Albert Einstein
>>
>>
>> The most beautiful thing we can experience is the mysterious-it is
>> the source of all true art and science. -Albert Einstein
>>
>>
>> Science and art belong to the whole world, and before them vanish the
>> barriers of nationality. -Goethe
>>
>>
>> It is the tension between creativity and skepticism that has produced
>> the stunning and unexpected findings of science. -Carl Sagan
>>
>>
>> Inventions have long since reached their limit, and I see no hope for
>> further development. -Julius Sextus Frontinus, Highly regarded
>> engineer in Rome, 1st century A.D.
>>
>>
>> And if everybody says that you are wrong, then you are one step ahead.
>> But there is one situation which is better still, when everyone begins
>> to laugh about you, then you know you are two steps ahead. Albert
>> Szent-Gyorgi (Nobel-prize winning biochemist who discovered vitamin C)
>>
>>
>> One cannot step twice into the same river. -Heraclitus
>>
>>
>> While the rational mind is important, we gain a new perspective when we
>>
>> learn how many of the greatest scientific insights, discoveries, and
>> revolutionary inventions appeared first to their creators as fantasies,
>>
>> dreams, trances, lightening-flash insights, and other non-ordinary
>> states of consciousness. -Willis Harman and Howard Rheingold
>>
>>
>> "Let us learn to dream, gentlemen." -Kekule, famous for his
>> dream-inspired scientific breakthrough-discovering the molecular
>> structure of benzene, advised his fellow scientists:
>>
>> Whenever you look at a piece of work and you think the fellow was
>> crazy, then you want to pay some attention to that. One of you is
>> likely to be, and you had better find out which one it is. It makes an
>> awful lot of difference. -Charles Franklin Kettering (1876-1958)
>> U.S. engineer and inventor.
>>
>> An essential aspect of creativity is not being afraid to fail. -Dr.
>> Edwin Land
>>
>> All sciences are now under the obligation to prepare the ground for
>> then future task of the philosopher, which is to solve the problem of
>> value, to determine the true hierarchy of values. -Friedrich
>> Nietzsche
>>
>> I wish to be at any time hereafter only a yea-sayer!
>> -Friedrich Nietzsche
>>
>> We must be physicists in order to be creative since so far codes of
>> values and ideals have been constructed in ignorance of physics or even
>>
>> in contradiction to physics. -Friedrich Nietzsche
>>
>> A thinker sees his own actions as experiments and questons.. as
>> attempts to find out something. Success and failure are for him answers
>>
>> above all. -Friedrich Nietzsche
>>
>> There are no facts, only interpretations. -Friedrich Nietzsche
>>
>> If I have seen further it is by standing on the shoulders of giants.
>> -Isaac Newton
>>
>> Max Planck, the father of quantum theory, felt that the pioneer
>> scientist must have a vivid intuitive imagination, for new ideas are
>> not generated by deduction, but by "artistically creative
>> imagination."
>>
>> In "Shorter Bartlett's Familiar Quotations," by John Bartlett, 1937,
>> 1980, 1992.
>>
>> It is by intuition that we discover and by logic we prove. -Henri
>> Poincaré, Mathematician
>>
>> Knowledge has three degrees-opinion, science, and illumination. The
>> means or instrument of the first is sense; of the second, dialectic; of
>>
>> the third, intuition. This last is absolute knowledge founded on the
>> identity of the mind knowing with the object known. -Plotinus
>>
>> If at first the idea is not absurd, then there is no hope for it.
>> -Albert Einstein
>>
>> If I have seen further it is by standing on the shoulders of giants.
>> -Isaac Newton
>>
>> Max Planck, the father of quantum theory, felt that the pioneer
>> scientist must have "a vivid intuitive imagination, for new ideas are
>> not generated by deduction, but by artistically creative imagination."
>>
>> An important scientific innovation rarely makes its way by gradually
>> winning over and converting its opponents: What does happen is that the
>>
>> opponents gradually die out. -Max Planck
