09.54
Gravity
"There are more things in heaven and earth, Horatio, Than are dreamt of in your philosophy"
William Shakespeare
"I have discovered the secrets of the pyramids, and have found out how the Egyptians and the ancient builders in Peru, Yucatan, and Asia, with only primitive tools, raised and set in place blocks of stone weighing many tons!"
Edward Leedskalnin
Introduction
Modern physics admits that gravity is very different from other forces (strong, electromagnetic and weak) and perhaps less understood. Newton first described and formalized effects of gravity. Einstein made a significant step in understanding its nature and improved the way we can estimate it. Still, we cannot really tell what causes gravity and why it is so special among other forces. Calling it a “field”, a “universal force” does not help explaining it.Gravity as an inertial phenomenon in curved space caused by rotation of the universe in respect to higher dimensions.
Related (external) link: Inertial theory of gravity
Einstein's Theory of Gravity
by Suvendra Nath Dutta
Newton's theory of gravity is one of the most significant triumphs of scientific effort. Its predictions are vindicated by observations with extraordinary accuracy. When Adams in England and Le Verrier in France used the motion of Uranus to predict the existence of Neptune they were expressing the trust people have come to place on Newtonian gravitation as a very good approximation to reality.However as with any theory there are regimes where it is no longer applicable. For example the perihelion of Mercury is observed to precess at the rate of 43 arc-seconds every century. This ``fast'' precession cannot be explained by Newtonian gravitation. Another issue that came back to haunt Newton's theory of gravity was its ``action at a distance'' nature. Following the success of Maxwell's field theory of electromagnetic forces it was becoming increasingly necessary to find a similar field theory for gravitation. It was to meet this challenge that Einstein's theory of gravitation rose. It is an even better approximation to physical reality than Newton's theory, and reduces to Newton's theory when applied to the regime where Newton's theory is expected to work. Perhaps even more importantly it provides a geometric understanding of gravitation, which makes it more satisfying than the action at a distance nature of Newtonian gravitation.
Special Theory of Relativity
Before we enter Einstein's theory of gravitation we should take a detour into another one of his very famous works. One of the problems that faced physics at the turn of this century was one of relativity. In Newtonian physics there were a set of observers, called the inertial observers, to whom the laws of dynamics were the same. They all observed that the Newton's laws were satisfied. These observers were all un-accelerated, i.e., at rest or moving at uniform speed. The laws of dynamics were relative to the inertial observers. This is referred to as Galilean relativity. This was the situation until Maxwell's theory of electro-magnetism. Inspite of its stunning successes, it had one huge problem. Not all inertial observers saw the same Maxwell's laws. Physics was no longer relative. Two inertial observers at uniform motion relative to each other would measure different speeds of light. Maxwell himself was aware of this and attempted to solve the problem by defining his theory to be applicable only to observers stationary relative to a frame defined by a substance called Ether that filled all space. This however was not just an unsatisfying solution, it was also untenable from an observational point of view. No amount of observations led to any detection of earth's motion through this Ether that filled space. Einstein decided that the problem was not with Maxwell's laws but with Galilean relativity. He restored relativity to all of physics by defining a new set of inertial observers who all agreed on the laws of physics. This meant of course Newton's laws couldn't be correct. In fact it turned out that they were only true for inertial observers at rest or moving very slowly (compared to the speed of light). The laws of dynamics had to be changed for inertial observers moving very fast. One of the most important changes was that nothing could move faster than the speed of light. This was a consequence of the requirement that all inertial observers (regardless of how fast they moved) had to measure the speed of light in vacuum to be the same number c. Newton's second law was still true in the sense that the rate of change of momentum of a body was proportional to the force applied, but the meaning of momentum was now different. It became a function of the speed of the body such that it is increasingly more difficult to accelerate a body as it gets faster. For a body of finite mass it takes an infinite amount of energy to accelerate it to the speed of light. Only particles with zero mass (like the light particle, photons) can travel at the speed of light.
Gravitation
One consequence of the new theory of relativity meant of course that Newton's theory of gravitation was no longer relative to inertial observers moving relative to each other either. This meant that a new theory of gravitation had to be found which would be relative according to the special theory of relativity. Now a basic tenet of Newtonian relativity is the concept of absolute space. According to Newton there was an absolute space that did not change or alter and did not care about the state of the observer. The experiment that led him to this conclusion was one he performed himself. He strung a bucket full of water with a rope. He rotated the bucket so the rope was twisted and then let it go. The bucket started spinning around. The water level of course is flat when the bucket starts to spin. Then gradually the water starts to pick up the rotation from the bucket. Eventually the water is rotating at the same speed as the bucket. At this point the surface of the water is curved into a parabola. When the bucket was moving relative to the water the level was flat. It was only when water wasn't moving relative to the bucket that the surface became curved. So Newton concluded it wasn't the motion of the bucket that changed the surface of the water, because by the time the surface of water was affected the water wasn't moving relative to the bucket anymore, but that it was the motion of the water itself which was significant. Somehow the water was aware of the fact that it was in rotation. And so Newton concluded that there was an absolute space that decided what did and didn't have a force acting on it. And only observers at rest or in uniform motion relative to that absolute space could be inertial observers.Ernst Mach, an Austrian physicist who worked in the end of the last century disagreed with Newton's interpretation of the bucket experiment. He held that all knowledge was derived from sensations. So he refused to admit any statement in natural science that wasn't empirically verifiable. This led him to dismiss Newton's absolute space. He argued instead that the water was responding the mass around it, like the Earth, that it was rotating relative to. As he pointed out, the bucket was of small mass, but if it was made ``several leagues thick'' no one was competent to say how the water would react. His theory of relativity thus did not allow any absolute space. Inertial observers in his theory were at rest or in uniform motion relative to some space that was defined by all the material in the Universe.
This new statement of relativity strongly influenced Einstein while he was developing his theory of gravity. He postulated the strong principle of equivalence. According to this principle, in the presence of a gravitational field (say on Earth or around Sun), at each point it is possible over a small volume to define an observer for whom the laws of physics are identical to that of an unaccelerated observer (i.e., an observer who has no forces acting on him/her). Thus in some ways Einstein's theory of gravity falls in between Machian and Newtonian relativity. The material around our small volume of interest does define the frame identical to the unaccelerated frame (as far as physical laws go), but once that frame is defined the details of the mass distribution no longer matter for the entire small volume.
Stating the equivalence principle in this way brings it very close to a different field that had been worked on before at some length. Imagine a curved line. If we magnify a small portion of it, it looks less curved. We can continue our focusing into smaller and smaller sections of the curved line. Eventually we'll be looking at such a small portion of the curved line that it will look straight to us, much like the way the Earth seems flat at close range even though we know that it is spherical. Note how close this is to the idea that in a small enough volume about a point in a gravitational field we can define a frame where we can forget that there is a gravitational field. This analogy led Einstein to conclude that the gravitational field was infact a statement about the geometry of space-time itself. The presence of massive objects like the Sun causes space time to curve like the surface of the Earth is curved. The curvature of space time is much harder to visualize than the curved surface of a balloon or earth of course. The Earth is a two dimensional curved surface occupying a three dimensional volume. Its far harder to imaging a curved three or four dimensional volume. Regardless the mathematics is very similar and it is possible to carry over the same mathematical arguments from curved two dimensional surfaces to higher dimensions. In the absence of mass the geometry of space time is flat, in the way the table top is a flat two dimensional surface. When there is mass present the space time curves to act like the surface of Earth or the surface of water in the rotating bucket. Except that the curved ``surface'' is in four dimensions (three space dimensions and one time) rather than two. As is to be expected, indeed is required, the Einstein's theory of gravity reduces to Newtonian gravity when the gravitational field involved is not very intense, like in the solar system. Which is necessary given the wonderful successes of Newtonian gravity in explaining the motions of planets. Newtonian gravity fails at Mercury, closest to Sun, where the gravitational field is the most intense. And there the corrections made by Einstein's gravity match with observations perfectly. The unexplained fast precession of Mercury is exactly what is to be expected once corrections due to Einstein's theory of gravity is taken into account.
Some consequences of Einstein's theory of gravity fall straight out of the basic propositions. Because the presence of mass curves space time, ``straight lines'' are no longer straight in the way we think of them in flat space time. Imagine two people back to back on the North Pole starting to walk out in what they think are straight lines. If the Earth were flat they would never meet. Of course we know that that won't be the case and they will meet face to face at the South Pole. This is drastically different from what we learnt in Euclidean geometry where parallel lines never meet and a straight line extends out in two directions infinitely. Whereas in curved space they turn around and meet. Similarly in curved space time ``straight lines'' behave strangely. Two rays of light for example that are parallel in a flat space time would carry on parallel to each other never reducing or increasing the distance to each other. In curved space time they would change the distance between each other. This was observed by Sir Arthur Eddington when he looked for stars near the Sun during a complete solar eclipse and found that they were in different positions to where they were when the Sun was in a different part of the sky. This meant that the light rays reaching us from the stars had been bent by the curved space time due to the Sun's mass.
Another consequence that follows from the equivalence principle is the dilation of time. Imagine two points in a gravitational field, say the Earth and the Pluto in the Sun's gravitational field. According to the strong equivalence principle around each point there is a small volume where we can define an observer (inertial observer) where the physical laws are the same as an un-accelerated observer. But the volume must be small. So the observer who is inertial in the small volume around Pluto won't appear inertial on Earth at all. Imagine a clock in the hand of this observer on Pluto. It will work according to the time scale the inertial observer at Pluto thinks is appropriate. This won't be appropriate at all to the inertial observer at the Earth. So the identical clock on Earth will run differently from the clock on Pluto. In fact as we get closer to Sun, i.e., as the gravitational field intensifies the clock ticks slower compared to what it would in the absence of the Sun. Of course sitting on Earth we can't tell that it is ticking slower, because our standards of time (like how fast we grow old, etc.) are also slowed (remember all physical laws are affected). But if we were to compare clocks in Pluto and Earth we would be able to tell the difference. In fact this is what happens when we look at an atom radiating light. This is a natural clock and consequently will run slower on Earth than on Pluto. As the photon is radiated on Earth it has the color appropriate to the difference of energies of the stationary states the atom is making the transition between. But because of the difference in ticks of the clocks on Pluto the color will appear inappropriate for the same transition. It will appear redder on Pluto where gravity due to Sun is less intense than on Earth. This is called gravitational redshift and has been observed for light coming from white dwarves which have an intense gravitational field.
There are other theories of gravity as well, some not as elegant as Einstien's theory, others of comparable elegance. However the final word in science comes not from prejudices about heuristics but empirical evidence. And from that point of view, Einstein's theory is far ahead of its nearest competitors. But it continues to be challenged by observational tests. One of the most interesting ones being done today involves a yet unobserved prediction of the theory. Just as Maxwell's theory of Electromagnetic fields predicted the presence of waves, later identified as light, Einstein's theory for gravitational fields predict the presence of gravitational waves. However these are extremely difficult to observe and require sensitivity that is yet to be achieved with current technology. However there already exists indirect evidence through pulsars that have been observed to be slowing down because of energy radiated out in gravitational waves. These observations led to Nobel prizes for Joseph Taylor and Russell Hulse. However efforts continue to directly detect these waves in the geometry of the very space time we exist in.
© by Suvendra Nath Dutta
Source: http://plato.phy.ohiou.edu/~dutta/
Gravity's Mystery Unveiled
by Rich Anders
It is commonly assumed that the universe originated in the so-called Big Bang, the explosion of what science calls a singularity. This singularity, a dimensionless point, allegedly was comprised of all the matter of the universe before, which had collapsed into this singularity. However, there is a problem with this scenario. Once matter has reached the state of a dimensionless point it is not matter any more. Matter by its very nature exists in a material dimension defined by length, width, height and time. Once this is gone matter's remnant is energy. As energy does not take up space one could call this remnant a dimensionless point. Therefore, the statement should be that the universe originated in the explosion of the energy corresponding to all the collapsed matter of the universe before.With matter out of the way the question needs to be what kind of energy exploded and why it exploded. This energy originated from the collapse of matter. This means that the collapsed matter had lost its electromagnetic component and once it had reached the state of being completely separated from its electromagnetic energy matter as such ceased to exist. It collapsed instantly into a state of energy. - For simplicity's reason let it be understood that the weak and the strong force of the atom are meant as well when the term electromagnetism is used.
There are two kinds of energy: the energy corresponding to matter as it oscillates between the stages of energy and the stages of matter. Then there is the energy of the quantum vacuum. This energy corresponds to matter/energy and as such could be called the energy behind matter. Religion calls it the spiritual energy.
When matter collapses out of existence its energy component ceases to exist, as well. Hence, collapsed matter ends up as energy of the quantum vacuum, the realm of spirituality. This energy is not destroyed but it corresponds to dead matter. To re-vitalize this energy an input of energy is needed. Such input as produces the explosion of the Big Bang. For matter to collapse it has to be separated from its electromagnetic energies, the weak and the strong force of the atom. Energy is not lost. Separating from the dying matter this energy forms its own dimensionless point in the quantum vacuum. When the separation of all the electromagnetic energy from all matter in a universe has been reached the result are two dimensionless points, which are part of the energy of the quantum vacuum, the spiritual energy. One such point corresponds to all the dead matter of the collapsed universe the other one corresponds to all the electromagnetic energies, which had kept this matter alive.
When this situation has been reached these two dimensionless points of opposite nature meet in an extremely violent encounter and explode. By the force of this explosion commonly called the Big Bang, the two types of energy fuse and produce new matter, hydrogen and to a lesser degree helium. However, the question has to be addressed what else exploded. The first Big Bang, which created the first universe, must have been caused by the encounter of opposite energies alone because then there were no remnants of electromagnetic energy or matter to clash.
It must be assumed that there are two opposing types of quantum vacuum or spiritual energy. - From now on let's call these the spiritual energies because that's what they are commonly called. - Their very first encounter started the cycles of creation and destruction in the primal Big Bang. Subsequently, when matter died and a universe collapsed these spiritual energies attracted the energies of electromagnetism and the energies of dead matter thereby growing in volume from universe to universe. - For simplicity's reason lets call the energy, which attracts electromagnetism, positive and the energy, which attracts dead matter, negative.
In view of the aforesaid it is clear that primarily the universe is a spiritual structure. Only secondly it is a structure with an electromagnetic and a matter component. The origin, the method of creation and the type of matter created in the Big Bang decide matter's destiny from its beginning to its end.
Matter consists of two components: matter itself and electromagnetism, which keeps matter alive. This duality corresponds to the duality of the spiritual energies. One also could call this the duality of two principles, the principle of life or the positive principle and the principle of death or the negative principle. The Positive Principle creates and maintains creation and the Negative Principle destroys. The Positive Principle provides electromagnetism + the weak and the strong force of the atom and the Negative Principle provides matter and gravity. Together they provide living matter.
The weak force and the strong force of the atom counter gravity on the atomic level and keep the electrons orbiting a nucleus. In space electromagnetism assigns the locations of cosmic bodies. The Sun's electromagnetic field fields extents all the way to Pluto. In this field all the cosmic bodies of the solar system are embedded. Similarly, the star systems of a galaxy owe their respective locations to the electromagnetic field of the galaxy. Electromagnetism is everywhere and so is gravity.
Gravity determined the structure of the Earth. Heavy metals form the core and lighter rocks constitute the planet's crust. In between there is liquid magma. The heavy core rotates more slowly than the lighter crust with magma acting as sort of a clutch. The field lines of the core's metals and the field lines of the ores in the crust intersect and this produces an electromagnetic field, which continuously is getting stronger.
Gravity works very differently. It is attached to matter and forms tiny gravitational fields for every atom. These fields do not cancel the part that overlaps with the neighboring atom's field. These fields are added to one another. The more of these tiny gravitational fields of an atom there are the bigger is the common gravitational field. A planet has innumerable of these fields and, therefore, the accumulated gravitational field is very strong.
Wherever there is matter there is gravity. The more matter there is the stronger is gravity. There is a direct relation between matter and gravity, which cannot be overcome by shielding matter from gravity. Only an input of energy can overcome gravity. For instance, to overcome Earth's gravity a rocket has to use vast amounts of energy to escape its gravitational pull.
All efforts to come up with a unified field theory so far were able to integrate only electromagnetism plus the weak and the strong force of the atom. All attempts to include gravity in such a theory have failed - and for a valid reason. Electromagnetism plus the weak and the strong force of the atom together are the opposite force to gravity. This opposite force counteracts gravity and, therefore, they cannot be integrated in a single formula with it.
Matter and gravity cannot be separated. Shielding matter from gravity is not possible and there is a valid reason. Matter is energized gravity and one cannot shield something from itself.
To understand this statement one has to look at the end of matter in the universe before and the beginning of matter in a Big Bang. When matter in the previous universe lost its electromagnetic components it did not drift aimlessly through space. It instantly lost its matter nature and collapsed as spiritual energy into the center of gravity of that universe located in the quantum vacuum or in the realm of spiritual energies as one could call it, too.
Energy joins energy of same nature. The spiritual energy of the gravitational center attracts the spiritual energy of gravity attached to matter. When matter went out of existence matter's gravitational spiritual energy joined the spiritual energy of the universes gravitational center.
The input of positive spiritual energies caused the Big Bang and forced the weak plus the strong force of the atom and electromagnetism into the gravitational energies of the universe before thereby creating new energized living matter. This means that the newly formed matter originated from positive and negative spiritual energies, which accompany this matter from its very beginning as the second kind of energy behind matter as spiritual energy. This also means that from its very beginning matter has attached the energies from which it originated, the energies of gravity.
Therefore, matter and gravity are inseparably bound together.
Matter equals gravity.
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GRAVITATION FIELD AND POTENTIAL
Figuratively, we may imagine that the Earth’s matter immersed into the ethereal one is pressed by ethereal particles which have obtained some potential, and all the bodies on the Earth’s surface are also pressed in the same direction. Actually, the deformed ethereal particles react contrariwise on the spherical coats of the material particles and press them in a direction towards the balance center. The interaction implements the Newton’s Third law.
According to the Hypothesis, the system of deformed ethereal and deforming material particles is a gravitation field and the forces that act in it are gravitation forces. It is obvious that a contradiction between the Hypothesis and the official Gravity Law appears. In fact, there is no contradiction because of the perfect mathematical apparatus of the official theory; only the physical explanation has to be précised.
Because the Hypothesis claims: Forces of attraction could not and do not exist.
Following the ethereal particles from the Earth’s center to its periphery, we see how they become deformed; we might consider that their ideal spherical shape is deformed to an elliptical one with a small axis directed towards the balance center of the Earth’s gravity field. But this consideration have to be accepted as a part of the whole abstraction and idealization being in use by the Hypothesis but, of course, aiming to lead as close as it is possible to the hypothetical reality.
The gravity interactions are dominant in the space mechanics and spread everywhere in the Universe. They are weakest among all interactions, much weaker even than the weak ones. The gravity forces on the Earth’s surface are relatively weak, if we are on our guard that the huge mass of our planet which they depend on.
Gravitation field according the Hypothesis is a system of ethereal particles of neutral character activated to some potential by the neutral fields (the spherical coats) of inertial matter particles immersed into the ethereal matter.
The potential of the ethereal particles depends on the mass of the material particles that it activates them and reciprocally creates reactive forces which accomplish a feedback action to the material ones.
The gravitation field reacts on the particles of the matter and, as far as that matter is integrated into a macro-body, it makes its impact on the same macro-body. A consequence of this is the precision gravity forces which act at a molecular level. Due to this, the vectors of all the forces realized by a gravitation field are directed exactly towards its balance center. By the same reason the moving of the Earth round the Sun and the moving of the Moon round the Earth, in one word, the trajectories of all space objects are at a molecular level, that is why they are so precise in time and space.
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