ABOUT

NAVIGATION
SOCIAL
ADDRESS Stephen H. Jarvis Equus Aerospace Pty Ltd, Sydney, Australia.
CONTACT e: stephen.jarvis@xemdir.com f: 61 2 99221289

TEMPORAL MECHANICS

ZERO-DIMENSIONAL LOGIC The basic theoretic content of Temporal Mechanics is presented as 56 papers (Volumes 1-8) each available through the following channels: The 56 papers (Volumes 1-8) are also avaialble as a single PDF from the following (SendOwl) link:
XEMDIR

WELCOME

XEMDIR: THEORETIC, ENERGY, AND PROPULSION SYSTEMS Xemdir in the development of Temporal Mechanics, presents 56 papers (http://orcid.org/0000-0003-3869-7694) central to a new approach to both physics and cosmology theory, employing the use of a new zero-dimensional mathematical theorem to assist with the understanding of time and associated nature of space, directly solving the current problems in physics and cosmology theory.
THE THEORY TEMPORAL MECHANICS: ZERO-DIMENSIONAL LOGIC Temporal Mechanics is a new proposed way of examining physical phenomena in using a zero-dimensional philosophy and associated number theory. Specifically, Temporal Mechanics uses the mathematical object description of zero-dimensionality for time and space, namely time as a moment and space as a point. Here with the mathematics of zero-dimensionality and the associated derived time-equation, Temporal Mechanics presents the case of defining time as time- domains central to our perception ability of time and space. In other words, Temporal Mechanics presents the case of self-evident axioms for time and space, axioms that are self-evident to our perception ability of physical phenomena. The thinking here with Temporal Mechanics is that the right initial mathematical model should derive the known equations and values relevant to known phenomena, provided that the data exists to confirm or deny that new axiomatic base. As the name suggests, Temporal Mechanics is the proposed mechanics of time, presumably with space. Here, although time can be observed to contract and lengthen owing to the relative motion of bodies, it is derived that the speed of light c is always a constant velocity where at c time does not pass. By comparison, Albert Einstein’s Special and General theories of relativity merely described the idea of time as relative temporal incursions between non-zero inertial mass bodies. Here, Temporal Mechanics addresses both concepts of time, the primary universal c time where at c time does not pass for any location in space, and the secondary incursions of time due to relative motion. The demonstration here by Temporal Mechanics is that the ultimate physics equation can explain the relationship between time and space if and only if that equation can derive all the known fundamental features of physical phenomena, namely the particles, their field effects, and their relative metrics, in bridging the large-scale with the small-scale, forming a link between gravity and EM, fundamentally explaining the relationship between mass and energy. In setting the foundation therefore, Temporal Mechanics proposes the idea of taking our perception ability of time and mathematizing such with a time- equation, and then applying that equation to a spatial dimension to thence derive 3d space. To do this though, of course Einsteinian time needs closer examination, together with addressing the photon model of light, by which certain issues with the design of relativity theory and quantum mechanics need to be uncovered and discussed as being the cause of the problem central to the disparity between gravity and quantum mechanics. The current 56 paper list of Temporal Mechanics form an 8 volumes reference library according to the following themes of paper compilation: Volume 1: (papers 1-7) Hypothesis: The time-equation proposal and associated process of equation data matching. Volume 2: (papers 8-14) Adaptation: A new mathematical time-equation formulation and associated process of equation data matching. Volume 3: (papers 15-21) Development: The development of a dual time approach for EM and G as the Hybrid time-theory by deriving time to have different subsidiary equations for EM and G. Volume 4: (papers 22-28) Derivation: The interlinking mathematics of the hybrid time theory with associated atomic and subatomic data and equations. Volume 5: (papers 29-35) Range: Determining what the microscopic and macroscopic limits are and why for the time-equation theory, presenting a basic scheme for time-equation cosmology. Volume 6: (papers 36-42) Refinement: A process of deriving the known and more refined subatomic and elementary particle values and associated field force equations and data. Volume 7: (papers 43-49) Zero-dimensionality: Establishing the common underlying mathematics of physical phenomena and associated field force effects, particularly the basis for inertia and gravitational freefall. Volume 8: (papers 50-56) Applications: Identifying the practical basis of Temporal Mechanics through demonstrable proof of new mechanisms describing the underlying features of physical phenomena not currently understood by standard mathematical or physical theories. Temporal Mechanics describes the idea of hypothetical time-points in space as per the zero-dimensional mathematical theorem in forming a general timespace tapestry leading to the derivation of all the fundamental equations and associated principles of physical phenomena. Future work therefore is now focussing on demonstrating the zero-dimensional mathematical theorem by way of identifying those new mathematical equations and how that can be demonstrated with new experiment findings. Stephen H. Jarvis Author of Temporal Mechanics Founder of Xemdir.

RESULTS

1
2
3
The theoretic content of Temporal Mechanics (56 papers, Volumes 1-8) is held in the context of the Xemdir publishing division Equus Aerospace Pty Ltd. If you would like to become involved with the Temporal Mechanics research and development work of Xemdir or would like to invite Xemdir into your own research and development structure, please correspond in proposing your interest.
APPLICATIONS (TECHNOLOGICAL AND MATHEMATICAL)
NAVIGATION
ADDRESS Stephen H. Jarvis Equus Aerospace Pty Ltd, Sydney, Australia.
CONTACT e: stephen.jarvis@xemdir.co m f: 61 2 99221289
SOCIAL

TEMPORAL MECHANICS

ZERO-DIMENSIONAL LOGIC The basic theoretic content of Temporal Mechanics is presented as 56 papers (Volumes 1- 8) each available through the following channels: The 56 papers (Volumes 1-8) are also avaialble as a single PDF from the following (SendOwl) link:

WELCOME

XEMDIR: THEORETIC, ENERGY, AND PROPULSION SYSTEMS Xemdir in the development of Temporal Mechanics, presents 56 papers (http://orcid.org/0000- 0003-3869-7694) central to a new approach to both physics and cosmology theory, employing the use of a new zero-dimensional mathematical theorem to assist with the understanding of time and associated nature of space, directly solving the current problems in physics and cosmology theory.
THE THEORY TEMPORAL MECHANICS: ZERO-DIMENSIONAL LOGIC Temporal Mechanics is a new proposed way of examining physical phenomena in using a zero- dimensional philosophy and associated number theory. Specifically, Temporal Mechanics uses the mathematical object description of zero- dimensionality for time and space, namely time as a moment and space as a point. Here with the mathematics of zero- dimensionality and the associated derived time- equation, Temporal Mechanics presents the case of defining time as time-domains central to our perception ability of time and space. In other words, Temporal Mechanics presents the case of self-evident axioms for time and space, axioms that are self-evident to our perception ability of physical phenomena. The thinking here with Temporal Mechanics is that the right initial mathematical model should derive the known equations and values relevant to known phenomena, provided that the data exists to confirm or deny that new axiomatic base. As the name suggests, Temporal Mechanics is the proposed mechanics of time, presumably with space. Here, although time can be observed to contract and lengthen owing to the relative motion of bodies, it is derived that the speed of light c is always a constant velocity where at c time does not pass. By comparison, Albert Einstein’s Special and General theories of relativity merely described the idea of time as relative temporal incursions between non-zero inertial mass bodies. Here, Temporal Mechanics addresses both concepts of time, the primary universal c time where at c time does not pass for any location in space, and the secondary incursions of time due to relative motion. The demonstration here by Temporal Mechanics is that the ultimate physics equation can explain the relationship between time and space if and only if that equation can derive all the known fundamental features of physical phenomena, namely the particles, their field effects, and their relative metrics, in bridging the large-scale with the small-scale, forming a link between gravity and EM, fundamentally explaining the relationship between mass and energy. In setting the foundation therefore, Temporal Mechanics proposes the idea of taking our perception ability of time and mathematizing such with a time-equation, and then applying that equation to a spatial dimension to thence derive 3d space. To do this though, of course Einsteinian time needs closer examination, together with addressing the photon model of light, by which certain issues with the design of relativity theory and quantum mechanics need to be uncovered and discussed as being the cause of the problem central to the disparity between gravity and quantum mechanics. The current 56 paper list of Temporal Mechanics form an 8 volumes reference library according to the following themes of paper compilation: Volume 1: (papers 1-7) Hypothesis: The time-equation proposal and associated process of equation data matching. Volume 2: (papers 8-14) Adaptation: A new mathematical time-equation formulation and associated process of equation data matching. Volume 3: (papers 15-21) Development: The development of a dual time approach for EM and G as the Hybrid time-theory by deriving time to have different subsidiary equations for EM and G. Volume 4: (papers 22-28) Derivation: The interlinking mathematics of the hybrid time theory with associated atomic and subatomic data and equations. Volume 5: (papers 29-35) Range: Determining what the microscopic and macroscopic limits are and why for the time- equation theory, presenting a basic scheme for time-equation cosmology. Volume 6: (papers 36-42) Refinement: A process of deriving the known and more refined subatomic and elementary particle values and associated field force equations and data. Volume 7: (papers 43-49) Zero-dimensionality: Establishing the common underlying mathematics of physical phenomena and associated field force effects, particularly the basis for inertia and gravitational freefall. Volume 8: (papers 50-56) Applications: Identifying the practical basis of Temporal Mechanics through demonstrable proof of new mechanisms describing the underlying features of physical phenomena not currently understood by standard mathematical or physical theories. Temporal Mechanics describes the idea of hypothetical time-points in space as per the zero-dimensional mathematical theorem in forming a general timespace tapestry leading to the derivation of all the fundamental equations and associated principles of physical phenomena. Future work therefore is now focussing on demonstrating the zero-dimensional mathematical theorem by way of identifying those new mathematical equations and how that can be demonstrated with new experiment findings. Stephen H. Jarvis Author of Temporal Mechanics Founder of Xemdir.
The theoretic content of Temporal Mechanics (56 papers, Volumes 1-8) is held in the context of the Xemdir publishing division Equus Aerospace Pty Ltd. If you would like to become involved with the Temporal Mechanics research and development work of Xemdir or would like to invite Xemdir into your own research and development structure, please correspond in proposing your interest.

ABOUT

RESULTS

1
2
3

XEMDIR

Theoretic, Energy, and Propulsion

systems

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