PHYSICS, Mathematics, Unity, Gravity and Space-Time

Following previous studies on the nature of the forces in physics within the universe, a pattern of mathematical unity between complimentary quantities has become apparent.This becomes most apparent when energy and its fields are expressed in space-time (S-T) units of measure as outlined in a previous paper entitled 'Theoria Omnia – A work in Progress'.

An analysis, initially aimed at a more comprehensive understanding of inertia in an earlier paper, has carried past those mathematical conclusions to suggest a wider application of the results therein. The following is a summary of the case of unity between acceleration, a, and inertia, ί.

Inertia and Acceleration

“There does not appear to be any meaningful quantification of inertia in the current or past physics literature, however inertia is easily quantified from Newton's Laws. The relationship between acceleration caused by gravity or any acceleration, a, and inertia can be quantified mathematically from Newton's Second Law of Motion, F = ma, in combination with the Equivalence Principle, which establishes an invariable mathematical product between the two, given that different masses accelerate at the same rate in the same gravity field. Let the Greek lower case letter iota, ί, be assigned to inertia for algebraic purposes and avoid confusion with other quantities using I or i .

From F = ma, a = F/m from which SI units a evidently has units Newtons per Kilogram, (N/kg in addition to the more commonly used m/sec²) . From the Equivalence Principle, a is proportional to ί , and that proportionality is apparently a simple reciprocal relationship a = 1/ί and ί = 1/a . ί has the units kg / N. The following examples demonstrate the above relationship:

1. if a mass of 20 kg has an acceleration of a = 10 N/kg, from F = ma, the force is 200 N. As a = F/m, the inertia ί = m/F = 20/200 = 0.1 kg/N.                  a x ί = 1
2. if a mass of 15 kg has an acceleration of a = 1 N/kg, force is 15 N and the inertia ί = m/F = 15/15 = 1 kg/N.                                                                a x ί = 1
3. if a mass of 40 kg has an acceleration of a = 0.1 N/kg, the force is 4 N and the inertia, ί = m/F = 40/4 = 10 kg/N.                                                                a x ί = 1

The lower the acceleration the higher the inertia and vice versa. The force per unit mass determines the acceleration, and the mass per unit force determines the inertia.

Regardless of mass, a ί = 1, which is why different masses accelerate at the same rate in the same gravitational field. Scientific experiment has so far never been able to disprove the Equivalence Principle.”

The General Equation for the Equivalence Principle of acceleration and inertia is a ί = 1

The above analysis of the alternative unit of measure for acceleration from a = F/m, newtons per kilogram, opens the way for the expression of Newtonian physics equations in a different form:

Newtonian Equations expressed using Acceleration units as N/kg instead of m/s²

“An alternative unit of measure for acceleration also offers another set of Newtonian equations. They represent an alternative approach to calculating quantities seen in Newtonian physics.

For example, given the alternative measures for acceleration N kg ^-1 = ms^-2, then s^-2 = N kg^-1 m^-1, therefore s² = kg m N ^-1 and s = √ (kg.m / N) which in English says that time equals the square root of (mass times length divided by force).

Symbols used are F = force, m = mass, a = acceleration, ί (iota) = inertia, t = time, v = velocity, r = length, M = momentum, n = dimension number, c = the speed of light, g = gravity field, E = mass-energy and k denotes a constant. Symbols in SI units are force (N) newtons, mass (kg) kilograms, time (s) seconds, length (m) metres. Symbols in S-T units are s = space, t = time.

Quantity                                    Equation                             SI Unit                           Space-Time Unit

                                                                                                             (derived from these equations)

Time                                    t = √ ( m r / F )                       ( kg m / N )^½                             t

Acceleration                        a = F / m                                 ( N / kg)                                   s/t²

Velocity                               v = Ft /m                                 ( N s / kg)                                s/t

Length                                r = Ft ² / m                               ( N s² / kg)                              s

Mass                                  m = F t ² / r                              ( N s² / m )                             t³/s³

Force                                  F = m r / t ²                              ( kg m / s² )                            t/s²

Momentum                         M = F ² t ³ / m r                         ( N² s³ / kg m )                      t²/s²

Energy                               E = k m v²                                 ( kg m s^-1)                             t/s

Space-Time Units show complete consistency in these modified Newtonian Equations, indicating that both the standard and modified Newtonian Equations and the Space-Time Units are correct and consistent, as predicted. It also verifies that the space-time unit for mass, t ³/s ³ is correct. This is key evidence supporting the interpretation of Mass and Gravity by Theoria Omnia and this paper.”

Derivation of Space-Time Units and Unity

The derivation of S-T units from SI units is self evident with a little thought, for example: Velocity equals distance divided by time which is expressed as s (space in one dimension) divided by time t, or s/t. Pressure is force divided by area, t/s² x 1/s² = t/s⁴. Similarly acceleration is s divided by t divided by t = s/t². Acceleration can also be expressed as N/kg which in S-T units is force, t/s² divided by mass t³/s³ or t/s² x s³/t³ = s/t² which is the same S-T result as the S-T units yield for m/s². All SI units consistently yield equivalent S-T unit results, indicating that S-T units are both fundamental and verifiable.

From the above table of physical entities and their SI and S-T units, the mathematical reciprocal of energy (t/s), is, in the mechanical system, velocity s/t. In the electric system, charge is also t/s and its reciprocal is current, or electric field, s/t. This indicates that in the mechanical system energy's field is velocity and in the electric system electric charge's field is the electric field.

From the S-T units it can be seen that the product of energy and its field is unity.

It can also be seen that momentum t²/s², is a two freedom analogue of energy, t/s. Magnetic charge also has the S-T unit t²/s², and is the two freedom analogue of electric charge, and its reciprocal is the magnetic field s²/t². The product of these is also unity.

Mass, t³/s³, is the three freedom analogue of energy and its field is the gravitational field s³/t³. The product of these is also unity.

The unity result does explain why it seems impossible to extract additional energy from electric, magnetic and gravity fields.

The Relationship between the Electric, Magnetic and Gravity Fields

 

To clarify what is meant by 'freedom', electric charge acts as a scalar motion attached to a particle along one axis of 3D space, magnetic charge along two axes, and mass charge along three axes of 3D space. In a mechanical system analogy, they equate to a line, an area and a volume. The axes do not denote a position in space, but a relative direction with respect to the other axes. It describes three scalar motions acting at right angles to the others, which accounts for the behaviour of an electric motor or generator, where the mass field (motion) ┴ magnetic field ┴ electric field (current). The dynamo uses motion to produce current and the motor uses current to produce motion.

The difference in energy between the degrees of freedom were calculated by Einstein as mc, that is, mass to magnetic = mc, magnetic to electric = mc, and mass to electric = mc², which, from the foregoing, equates to mass to energy = mc², or E = mc². Conversely, the respective fields are represented by a difference in field intensity (per unit volume), the electric, E-field = 1/mc² , the magnetic B-field = 1/mc and the gravity g-field = 1/m, verifiable by their S-T units. These equations indicate the energy (= 1/field) of the E-field exceeds the B-field which exceeds g-field per unit volume, which is indeed the case in our part of the cosmos. The corresponding volume of effect of these three fields is highest in the case of the g-field, followed by the B-field, then the E-field at the same time as their effective energy intensity per unit volume decreases. Again, the recipricosity between energy and field is apparent in the mathematics and the physics. For example mass has the highest energy (=mc²) and the weakest field per unit volume with the largest volume of effect, which is consistent with the mathematics of energy and its field.

The hypothesis that the above mentioned scalar motions which define electric charge, magnetic charge and mass charge, is supported by the operation of the dynamo and electric motor, the physics of which have no comprehensive explanation in mainstream physics texts to date. If an electric charge (scalar motion) in one degree of freedom were aligned to oppose or negate one degree of the three freedoms of mass charge scalar motion, the result would be a two freedom magnetic charge perpendicular to the negated degree of freedom. This is the case in the dynamo and motor. The matter which carries (i) electric charge is the copper conductor, (ii) magnetic charge is the iron of the stator and rotor and (iii) mass charge is carried by most matter and manifests as the motion of the rotor relative to the first two. The machine correctly aligns all 3 degrees of freedom to produce the desired result, electric charge (dynamo) or motion (motor). It is magnetism which enables the link between electric energy and mass energy while conserving energy input and output in that machine. The other known link between mass and energy, nuclear fission, does not conserve the energy in the same way and releases it to raise the entropy (disorder) of the system.

The physics of the dynamo/electric motor above imply that motion of electric charge (current) is the cause of the electric field, which is in fact a potential which can move a point charge within it. Similarly, the motion of mass charge is the cause of the gravity field which can move a mass within it. So if mass is moving through space relative to a given reference it creates a gravity field when observed from that reference point. That same gravity field can cause acceleration of another mass which is within the field, thereby creating a secondary gravity field. If the given reference were considered the centre of the Milky Way galaxy it can be seen why the Sun's gravity field and the Earth's gravity field are different yet at the same time contribute to the acceleration effect upon other planets of the solar system. They are also a part of the sum gravity field which belongs to the galaxy. Theoretically, one could start at the galaxy level and using the same logic, drill down to the particle level if the galaxy gravity field were to be analysed in detail. In the other direction, the macroscopic view which includes all of the galaxies would suggest that they are all in motion relative to each other and thus have a gravitational field generated by that relative motion. This accords with current theories of the motion of mass charge (which is carried by most particles of matter except neutrinos as far as we know) within the universe.

The summed effect of the gravity field caused by mass charge in relative motion would be simple compared to its constituent parts. The magnitude of the mass charge and of the motion would possibly be an analogue of that of the electric field strength and the magnitude of the charge within it, that is, the larger the current causing the field and the higher the point charge within it would determine the acceleration of that point charge, which in turn creates its own electric field by its motion. Additional complexity is added when a charged paricle exhibits circular motion, thereby creating a magnetic field and further electric induction effects.

It would seem from the above that most matter is affected and significantly connected by one or more of the three fields discussed. The gravity field is wider in its distribution because its energy, mass charge, is carried by most of the known fundamental particles in the universe, whereas it is mostly the electron which carries electric charge and photons which carry magnetic charge as far as we know. (Photons carry momentum, which has the same S-T unit as magnetic charge, t²/s².) These observations make clear why, in S-T units, acceleration is not the same S-T unit as any of the fields.

A common misconception is that gravity and acceleration are the same thing, and that mass and matter are the same thing. Similarly, it is not an electron which travels through a conductor, but it is the scalar motion called 'charge' which does. That charge can be observed when held on the atoms of synthetic clothing, for example, where it is called a static charge.

   S-T units make these errors easy to detect and correct. In all probability matter does not create the gravity field, it is mass charge in motion which creates it. The magnitude of both mass charge and motion affect gravity field strength. This is consistent with the lower analogues of electricity and magnetism and consistent with observation, the electric dynamo and motor being a good demonstration.

Effects in the Cosmos

S-T units provide an insight into energies by relating the degrees of freedom of their energies to their spatial equivalent (Refer to Table 1 and Appendix 2 in 'Theoria Omnia' for a full list of S-T units for known quantities.) All of these are verifiable from their SI unit equivalent.

For example Electrical energy t/s acts in one spatial dimension, t/s divided by s = t/s x 1/s = t/s² which is the S-T unit for force.

Magnetic energy acts in two spatial dimensions, t/s x t/s divided by area s² = t/s x t/s x 1/s² = t²/s⁴ which is the S-T unit for magnetic field intensity.

Gravitational energy acts in three spatial dimensions, t/s x t/s x t/s divided by volume s³ = t/s x t/s x t/s x 1/s³ = t³/s⁶ which is an unknown S-T unit.

The above S-T units for the three phenomena have in common a product difference between the successive degrees of freedom of t/s² which is the S-T unit for Force. This suggests that the multiplication of an energy of a lower degree of freedom by force results in the next higher energy. For example electric energy times force yields magnetic energy, and magnetic energy multiplied by force yields gravitational energy. Force can be expressed as Mass x Acceleration (motion). This is consistent with the foregoing discussion of both charge and motion together creating a field.

The puzzle of the areas of the cosmos (observed from Earth) which appear to have a high gravity field intensity without the commensurate volume of matter has led to the hypothesis called 'Dark Matter' as an explanation. This hypothesis possibly arises from the misconception that matter is the source of the gravity field. If Mass times Motion is the source of the gravity field then there is no inconsistency, keeping in mind that the relativity of the observer applies when the observation is made.

For example, a cluster of stars in a galaxy spiral arm on the opposite side of the galaxy would have a higher relative motion than a similar cluster on the same side and arm of the galaxy as the observer, with a correspondingly higher apparent gravity field. If only the amount of mass were considered, the strength of its gravity field would appear inconsistently high, and lead to an assumption of additional (invisible) mass.

This explanation of Dark Matter is consistent with General Relativity Theory. The only concept which is different from current thought is the hypothesis regarding the source of the gravity field. This hypothesis is supported by observation of the spatially related fields of electricity and magnetism and the mathematical relationships between them.