Pushing Mass to Travel Faster than Light

BY: RODNEY KAWECKI 2015

Pushing Mass to Travel Faster than Light

Particle Physics Please …..the confusion is worldwide

The nature of testing whether or not a mass can physically withstand traveling at speeds faster than light have totally been underwritten by modern physics based on the natural exhibit of a singular particle and its spin.

In what Kawecki calls " The Quantum Light Speed Theory'  is how he will explain in detail the best evidence to superluminal space travel theory obtainable in today's modern physics history that shows physical evidence to his hypothesis he was led to be a part of in "DIRAC'S SEA". Dirac’s Sea is observing space as a three dimensional realm in the same way we take for granite our planets ocean. From head to toe space also has a surface like are oceans and is a place which the planets above reside.

Research on the possibility of faster than light space travel can well be addressed with the work of Paul Dirac physicists at Cambridge University in 1925 Dirac's work on anti-particle behavior at this time show that what is called THE DIRAC SEA equations act relative to the effects of an external force as Albert Einstein's work on relativity and light speed doctrine this external force of gravitation acting on all particles and matter on this planet.

Dirac's work mentioned that when the positive energy electron particle is in a ZPE state or field vacuum it resides at rest. This evidence refers back into the Quanta Physics Study and chapter of Quantum Light Speed Hypothesis in the manner that infers to the Interstellar space field realm. Dirac's hypothesis on particle behavior and referring to the activity of electrons and the electron antiparticle raises the issue to faster than light speed possibilities that in Quantum Light Speed Theory infer the possibilities to time travel within the standard model. Time travel is a full explanation of Albert Einstein and his special theory of relativity but doesn't infer until after light velocity is engaged.

The PE electron (positive electron) is in its lowest energy state when it is not moving. At this point a PE electron has only rest mass energy equal to mc². The faster the PE electron moves the more energy it acquires over and above its rest mass. Momentum or velocity of the electron while at rest retains an energy mass relative to the energy around inferred upon as gravity even though it doesn't move. As a PE electron's momentum increases it moves up the energy ladder this kinetic raise in its energy comes from its surrounding space. On earth the energy of earth’s gravity field force even at rest measures G=6.67428 x 10-11 m3/kg s2.

The Energy Interactions and Behaviors between Particles and their Mass

EARTH

G=6.67428 x 10-11 m3/kg s2.

Where F is the force, m1 and m2 are the masses of the objects interacting with G {G=6.67428 x 10-11 m3/kg s2.}, r is the distance between the centers of the masses and G is the gravitational constant.

F=G m1/m2/r2

F=G (mass + ke / r) center of the two masses) interaction behaviors.

In 1905, Albert Einstein believed the universe cosmogony was static.

SPACE

G=zero

Where F is the force, m1 and m2 are the masses of the objects interacting with G {G=zero}, r is the distance between the centers of the masses and G is the gravitational constant.

F=m1(-m2)r2

E=m1(-m2)r2

F is the force. m1 is the mass of the object (plural) -m2 interacting with G {G=zero}, r is the distance between the centers of the masses.

Note: this only applies to objects with rest mass. Anything with 0 mass can travel at light speed easily.

 Frame of reference

The speed, and thus the kinetic energy of a single object is frame-dependent (relative): it can take any non-negative value, by choosing a suitable reference frame.  For example, a bullet passing an observer has kinetic energy in the reference frame of this observer. The same bullet is stationary from the point of view of an observer moving with the same velocity as the bullet, and so has zero kinetic energy.  

By contrast, the total kinetic energy of a system of objects cannot be reduced to zero by any suitable choice of the inertial reference frame, unless all the objects have the same velocity meaning that if the speed of gravity is measured to be traveling at the speed of light there can exist no initial reference frame by which a kinetic value can be uniformed since in space all the objects in the gravity all have the same initial velocity.

. It is assumed that the body starts with no kinetic energy when it is at rest (motionless). In space since the momentum of the object is not measured as a negative respond on the body but measures a positive proportionate free fall motion in space the rigid body’s gain of kinetic energy is subtracted in the balance. the instantaneous free fall gain expansion acceleration enforced by the objects propulsion force of acceleration in a zero point reference frame. In such a case there exist a mass and kinetic energy balance.

 In any other case the total kinetic energy has a non-zero minimum. We observe the cosmos and the galaxies moving away from us – is the bullet passing an observer has kinetic energy in the reference frame of this observer. The same bullet is stationary from the point of view of an observer moving with the same velocity as the bullet, and so has zero kinetic energy.  The universe surpasses itself with a cosmological constant of zero gravity. Since the galaxies are moving away from each other , the observer from one of these galaxies traveling towards another gains no kinetic energy.

Where on a planet the kinetic potential of energy loss is contradicted by its mass energy potential, in space is over laced as a kinetic energy source for gain. The interacting between mass potential at rest and kinetic mass gain are contradicted by the potential mass equaling c and its interacting kinetic values equal to c where the loss is between the interaction is measureable at r which is its gravity.(without reference to speed) The ship accelerates gaining acceleration in a field that is already moving at light speed. He accelerates with a rest mass energy conservation measuring zero but having the potential of c energy already enabling him to travel close to the speed of light before any kinetic energy over exceeds him balancing with his ship’s center of mass. 

It is assumed that the body starts with no kinetic energy when it is at rest (motionless) in space F=G m¹/m²/r³. Potential energy m¹ having the potential of c¹, where m² as a source of energy also has potential energy in equal with c¹, where r is zero.  Force drive kinetic energy is a source of expansion gained by the displacement of G, to be driven is balanced based on negative g equals c².  C is used for the speed of waves in any material medium, and c0 for the speed of light in vacuum.[8] According to special relativity, c is the maximum speed at which all matter and information in the universe can travel. It is the speed at which all massless particles and changes of the associated fields (including electromagnetic radiation such as light and gravitational waves) travel in vacuum. An object will continue moving at its current velocity until some force causes its speed or direction to change.

In mathematics, two variables are proportional if a change in one is always accompanied by a change in the other, and if the changes are always related by use of a constant multiplier. The constant is called the coefficient of proportionality or proportionality constant.

If one variable is always the product of the other and a constant, the two are said to be directly proportional. x and y are directly proportional if the ratio \tfrac yx is constant.

If the product of the two variables is always equal to a constant, the two are said to be inversely proportional. x and y are inversely proportional if the product xy is constant.

State of least energy'

A key concept is the center of gravity of a body at rest: it represents an imaginary point at which all the mass of a body resides. The position of the point relative to the foundations on which a body lies determines its stability in response to external forces. If the center of gravity exists outside the foundations, then the body is unstable because there is torque acting: any small disturbance will cause the body to fall or topple. If the center of gravity exists within the foundations, the body is stable since no net torque acts on the body. If the center of gravity coincides with the foundations, then the body is said to be metastable.

In physics, the line of action of a force F is a geometric representation of how the force is applied. It is the line through the point at which the force is applied in the same direction as the vector F→.

The concept is essential, for instance, for understanding the net effect of multiple forces applied to a body. As an example, if two forces of equal magnitude act upon a rigid body along the same line of action but in opposite directions, then they have no net effect—loosely speaking, they cancel one another out.

 The kinetic energy of a non-rotating object of mass m traveling at a speed v is ½mv².

.In physics, a force is said to do work if, when acting on a body, there is a displacement of the point of application in the direction of the force. For example, when a ball is held above the ground and then dropped, the work done on the ball as it falls is equal to the weight of the ball (a force)

the kinetic energy of an object is the energy that it possesses due to its motion.

Where physics defused the definition of inertia to include being inside the matter doing the work. For instance, a ship's engines and their propulsion value are parts of the body therefore do not apply as a kinetic force.

 It is defined as the work needed to accelerate a body of a given mass from rest to its stated velocity. Having gained this energy during its acceleration, the body maintains this kinetic energy unless its speed changes. The orbit kinetic and potential energy are exchanged; kinetic energy is greatest and potential energy lowest at closest approach to the earth or other massive body, while potential energy is greatest and kinetic energy the lowest at maximum distance. Without loss or gain, however, the sum of the kinetic and potential energy remains constant unless effected by G.

Mass due to acceleration: v

Ma=vE

Particle physics please

“There exists no line of appointment that says that a piece of matter, a mass or even a particle cannot be pushed to travel faster than the speed of light”.

When a NE electron (negative electron) is not moving, it resides in its highest energy state with rest mass equal to -mc². Presumably, a particle with negative mass would fall up in a gravity field, but no such particle has ever been observed. As an NE electron moves faster, it actually loses energy and moves down on the energy ladder. Observing NE electron particle activity does not explain adding the force of propulsion to ad acceleration.

 To try and explain FTL theory the NE particle must retain an acceleration force behind it to conclude whether FTL of such a particle is possible. According to Relativity a particle cannot exceed the speed of light is a physical quantity from which FTL cannot be summed with because there exist no added force of acceleration. Rod Kawecki's theory on faster than light possibilities is based on whether or not a limited particle mass can be physically and separately using a propulsion force be accelerated to a velocity faster than light is the hypothesis not whether a material particle can exceed its natural velocity. {Q.L.S.T.( If you ad energy to a neg. electron it will slow down)}.

The negative electron can lose energy without limit continually increasing its velocity. {Q.L.S.T. (While its opposing particle the PE resides continually at rest during this time in phase)}. Because of electromagnetic positive and negative charge interaction, a electron by emitting a photon of light carries away the extent energy between any of the two acting state. This hypothesis in Quanta Physics asserts that while the particle mode is in negative state velocity that its counter-part PE electron resides at rest assert the emitting of positive energy flow. Referring to speed of light in vacuum..one can assert that matter or massive particle components "e" resume an at rest characteristic of the phase from phase one velocity. Also that superluminal space travel in vacuum space the NE electron asserts dominion stability when engaged against Quantum Light Speed Force...or engaged torque speed entailed in a zero point energy vacuum space field condition space. With these qualifications when we review what relativity asserts as infinite mass we can resort to this resolution of particle phase of the Quantum Light Speed Hypothesis explained here.

We must include the facts on infinite mass theory with negative vacuum space field theory to cancel out the infinite equation. We discover that the Quanta Physics Study illustrates an empty space circumstance field grade thereby not enabling the idea of a negative energy space type field space. The Dirac Sea scheme that the vacuum is empty of positive-energy electrons assumes to be correct allowing the resolution to a cosmic solar wind activity and sound effect in space but he also claims that the Interstellar space field is filled with an ocean of negative electrons.

This assertion in Quanta Physics refers back to the idea of what dark matter is or contains for its components. The idea that Kaweckian Space is a lot more less than even that as an equilibrium which negative density is the component in itself for a space field chemistry definition also shows that it is not a material quantity of the space field that is infinite but the dark matter it arose from and or by it. This idea also opens the realm to multiple disk type universes throughout infinity.

The Dirac examination on antiparticle and or particle behavior illustrates a particle that will travel through empty space at innumerous speeds that resume and are superluminal in characterization but can be accounted for when we include the negative counter velocity part space field density which in Quanta Physics is increased to a 10 -460 vacuum for the beginning of the universe's birth that is accounted by the torque velocity exclusion of gravitation in the E=Mc² equations and the negative density of the dark matter space field at the time of the big bang event.