| Peer-Reviewed

Force of Inertia as Sort of Interaction

Received: 11 June 2021     Accepted: 30 June 2021     Published: 4 August 2021
Views:       Downloads:
Abstract

The interaction of the temporal positions of a moving body with mass is now an experimental fact. Models of this interaction are easily determined by the assumption that time is an imaginary coordinate. As a result, the force of inertia can be presented together with other forces as a form of interaction of time positions - characteristic of any kind of movement. The result confirms the universality of Newton's third law, which served as an additional incentive for real work. In particular, with the gravitational interaction of the two bodies, each of them experiences the force determined by the work of interacting masses. According to Newton's third law, this force is confronted by the power of interaction of the temporal positions of each body. The general expressions of force of inertia in the case of rectangular accelerated movement and movement in the circumference are obtained, which leads to classical formulas in any interval of possible body speeds. These formulas are fully in line with modern relativistic laws, but are their natural development and a more complete description of nature. Important results of the study include the formal definition of the sign of the force of interaction. When considering a rectangular accelerated motion, subtracting the force of the interaction of the final moment of movement, occurring at a greater speed, from the force of the interaction of the initial moment (at a lower speed) leads to a negative sign of the resulting force. The proposed model allows to recognize as superfluous experiments to determine the equality of gravitational and inertial masses, as in both cases we are talking about the same mass, participating in different types of interaction.

Published in Engineering Mathematics (Volume 5, Issue 2)
DOI 10.11648/j.engmath.20210502.12
Page(s) 22-24
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2021. Published by Science Publishing Group

Keywords

Force of Inertia, Interaction of Time States, Wheeler Experiment

References
[1] J. A. Wheeler, pp. 182-213 in Quantum Theory and Measurement, J. A. Wheeler and W. H. Zurek edit., (Princeton University Press, 1984).
[2] Ma, X. S., Kofler, J. & Zeilinger, A. Delayed-choice gedanken experiments and their realizations. Rev. Mod. Phys. 88, 015005 (2016).
[3] Jacques, V. et al. Experimental realization of Wheeler’s delayed-choice gedanken experiment. Science 315, 966–968 (2007).
[4] Kim, Y.-H., Yu, R., Kulik, S. P., Shih, Y. & Scully, M. O. Delayed choice quantum eraser. Phys. Rev. Lett. 84, 1 (2000).
[5] Ma, X. S. et al. Quantum erasure with causally disconnected choice. Proc. Natl. Acad. Sci. USA 110, 1221 (2013).
[6] Mitchell, M. W., Lundeen, J. S. & Steinberg, A. M. Super-resolving phase measurements with a multiphoton entangled state. Nature 429, 161–164 (2004).
[7] Kim, H., Lee, S. M. & Moon, H. S. Generalized quantum interference of correlated photon pairs. Sci. Rep. 5, 9931 (2015).
[8] won, O., Ra, Y. S. & Kim, Y. H. Observing photonic de Broglie waves without the maximally-path-entangled |N, 0>+|0, N> state. Phys. Rev. A 81, 063801 (2010).
[9] Manning A. G., Khakimov R. I., Dall R, G., Truscott A. G. Wheeler's delayed-choice gedanken experiment with a single atom. Nature Physics volume 11, pages 539–542 (2015).
[10] Zhong-Xiao Man, Yun-Jie Xia, Nguyen Ba An Simultaneous observation of particle and wave behaviors of entangled photons Scientific Reports volume 7, Article number: 42539.
[11] Parthentiev N. A., Partfenteva N. A. Connection of Newton’s formula for Kinetic Energy and Einstein Formyla, Sciences of Europe # 63, (2021) 47.
[12] Parfentev N. A. Interpretation of the Results of the Real Wheeler’s Experience. Engineering Mathematics 2018; 2 (2): 86-88.
[13] Parfentev N. A. On the nature of the inertia force. Science of Europe. Vol. 1 №30 p. 54-56 2018.
[14] Marco Mamone Capria (2005). Physics Before and After Einstein. Amsterdam: IOS Press. p. 167. ISBN 1-58603-462-6.
[15] Brewer, Jess H. (1998). "The Eötvös Experiment".
Cite This Article
  • APA Style

    Parfentev Nikolay Andreevich, Parfenteva Natalia Andreevna. (2021). Force of Inertia as Sort of Interaction. Engineering Mathematics, 5(2), 22-24. https://doi.org/10.11648/j.engmath.20210502.12

    Copy | Download

    ACS Style

    Parfentev Nikolay Andreevich; Parfenteva Natalia Andreevna. Force of Inertia as Sort of Interaction. Eng. Math. 2021, 5(2), 22-24. doi: 10.11648/j.engmath.20210502.12

    Copy | Download

    AMA Style

    Parfentev Nikolay Andreevich, Parfenteva Natalia Andreevna. Force of Inertia as Sort of Interaction. Eng Math. 2021;5(2):22-24. doi: 10.11648/j.engmath.20210502.12

    Copy | Download

  • @article{10.11648/j.engmath.20210502.12,
      author = {Parfentev Nikolay Andreevich and Parfenteva Natalia Andreevna},
      title = {Force of Inertia as Sort of Interaction},
      journal = {Engineering Mathematics},
      volume = {5},
      number = {2},
      pages = {22-24},
      doi = {10.11648/j.engmath.20210502.12},
      url = {https://doi.org/10.11648/j.engmath.20210502.12},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.engmath.20210502.12},
      abstract = {The interaction of the temporal positions of a moving body with mass is now an experimental fact. Models of this interaction are easily determined by the assumption that time is an imaginary coordinate. As a result, the force of inertia can be presented together with other forces as a form of interaction of time positions - characteristic of any kind of movement. The result confirms the universality of Newton's third law, which served as an additional incentive for real work. In particular, with the gravitational interaction of the two bodies, each of them experiences the force determined by the work of interacting masses. According to Newton's third law, this force is confronted by the power of interaction of the temporal positions of each body. The general expressions of force of inertia in the case of rectangular accelerated movement and movement in the circumference are obtained, which leads to classical formulas in any interval of possible body speeds. These formulas are fully in line with modern relativistic laws, but are their natural development and a more complete description of nature. Important results of the study include the formal definition of the sign of the force of interaction. When considering a rectangular accelerated motion, subtracting the force of the interaction of the final moment of movement, occurring at a greater speed, from the force of the interaction of the initial moment (at a lower speed) leads to a negative sign of the resulting force. The proposed model allows to recognize as superfluous experiments to determine the equality of gravitational and inertial masses, as in both cases we are talking about the same mass, participating in different types of interaction.},
     year = {2021}
    }
    

    Copy | Download

  • TY  - JOUR
    T1  - Force of Inertia as Sort of Interaction
    AU  - Parfentev Nikolay Andreevich
    AU  - Parfenteva Natalia Andreevna
    Y1  - 2021/08/04
    PY  - 2021
    N1  - https://doi.org/10.11648/j.engmath.20210502.12
    DO  - 10.11648/j.engmath.20210502.12
    T2  - Engineering Mathematics
    JF  - Engineering Mathematics
    JO  - Engineering Mathematics
    SP  - 22
    EP  - 24
    PB  - Science Publishing Group
    SN  - 2640-088X
    UR  - https://doi.org/10.11648/j.engmath.20210502.12
    AB  - The interaction of the temporal positions of a moving body with mass is now an experimental fact. Models of this interaction are easily determined by the assumption that time is an imaginary coordinate. As a result, the force of inertia can be presented together with other forces as a form of interaction of time positions - characteristic of any kind of movement. The result confirms the universality of Newton's third law, which served as an additional incentive for real work. In particular, with the gravitational interaction of the two bodies, each of them experiences the force determined by the work of interacting masses. According to Newton's third law, this force is confronted by the power of interaction of the temporal positions of each body. The general expressions of force of inertia in the case of rectangular accelerated movement and movement in the circumference are obtained, which leads to classical formulas in any interval of possible body speeds. These formulas are fully in line with modern relativistic laws, but are their natural development and a more complete description of nature. Important results of the study include the formal definition of the sign of the force of interaction. When considering a rectangular accelerated motion, subtracting the force of the interaction of the final moment of movement, occurring at a greater speed, from the force of the interaction of the initial moment (at a lower speed) leads to a negative sign of the resulting force. The proposed model allows to recognize as superfluous experiments to determine the equality of gravitational and inertial masses, as in both cases we are talking about the same mass, participating in different types of interaction.
    VL  - 5
    IS  - 2
    ER  - 

    Copy | Download

Author Information
  • AllRussian Institute of Kinematografy, Moscow, Russia

  • AllRussian Institute of Civil Engeneering, Moscow, Russia

  • Sections