A new hypothesis about the nuclear hydrogen structure

Main Article Content

Relly Victoria Virgil Petrescu
Raffaella Aversa
Antonio Apicella
Taher M. Abu-Lebdeh
Florian Ion Tiberiu Petrescu

Abstract

In other papers already presented on the structure and dimensions of elemental hydrogen, the elementary particle dynamics was taken into account in order to be able to determine the size of the hydrogen. This new work, one comes back with a new dynamic hypothesis designed to fundamentally change again the dynamic particle size due to the impulse influence of the particle. Until now it has been assumed that the impulse of an elementary particle is equal to the mass of the particle multiplied by its velocity, but in reality, the impulse definition is different, which is derived from the translational kinetic energy in a rapport of its velocity. This produces an additional condensation of matter in its elemental form.

Article Details

Section
Structural Engineering
Author Biographies

Relly Victoria Virgil Petrescu, Bucharest Polytechnic University, Romania

Bucharest Polytechnic University, Romania

Raffaella Aversa, Advanced Materials Lab, Department of Architecture and Industrial Design, Second University of Naples, Aversa, Italy

Advanced Materials Lab, Department of Architecture and Industrial Design, Second University of Naples, Aversa, Italy

Antonio Apicella, Advanced Materials Lab, Department of Architecture and Industrial Design, Second University of Naples, Aversa, Italy

Advanced Materials Lab, Department of Architecture and Industrial Design, Second University of Naples, Aversa, Italy

Taher M. Abu-Lebdeh, North Carolina A and T State Univesity, United States

North Carolina A and T State Univesity, United States

Florian Ion Tiberiu Petrescu, IFToMM

Ph.D. Eng. Florian Ion T. PETRESCU

Senior Lecturer at UPB (Bucharest Polytechnic University), Theory of Mechanisms and Robots department,

Date of birth: March.28.1958; Higher education: Polytechnic University of Bucharest, Faculty of Transport, Road Vehicles Department, graduated in 1982, with overall average 9.63;

Doctoral Thesis: "Theoretical and Applied Contributions About the Dynamic of Planar Mechanisms with Superior Joints".

Expert in: Industrial Design, Mechanical Design, Engines Design, Mechanical Transmissions, Dynamics, Vibrations, Mechanisms, Machines, Robots.

Association:

Member ARoTMM, IFToMM, SIAR, FISITA, SRR, AGIR. Member of Board of SRRB (Romanian Society of Robotics).

References

HALLIDAY, D.; ROBERT, R. (1966) Physics, Part II. 1st Edn., John Wiley and Sons, Inc., New York.

KRAMER, D. (2011) Looks again at inertial fusion as a potential clean-energy source. Phys. Today, v. 64, n. 26, Doi: 10.1063/1.3563814.

KRANE, K. S. (1987) Introductory Nuclear Physics. 3rd Edn., Wiley and Sons, New York, ISBN-10: 047180553X, pp: 864.

MOSES, E. I.; BOYD, R. N.; REMINGTON, B. A.; KEANE, C. J.; AL-AYAT, R. (2009) The national ignition facility: Ushering in a new age for high energy density science. Phys. Plasmas, v. 16. Doi: 10.1063/1.3116505.

SHULTIS, J. K.; FAW, R. E. (2002) Fundamentals of nuclear science and engineering. CRC Press, New York, ISBN-10: 0824708342, pp; 520.

PETRESCU, F. I. T.; CALAUTIT, J. K. (2016a) About nano fusion and dynamic fusion. Am. J. Applied Sci., v. 13, p. 261-266 Doi: 10.3844/ajassp.2016.261.266

PETRESCU, F. I. T.; CALAUTIT, J. K. (2016b) About the light dimensions. Am. J. Applied Sci., v. 13, p. 321-325. Doi: 10.3844/ajassp.2016.321.325

PETRESCU, F. I. T.; APICELLA, A.; PETRESCU, R. V.; KOZAITIS, S.; BUCINELL, R. (2016a) Environmental protection through nuclear energy. Am. J. Applied Sci., v. 13, n. 941-946. Doi: 10.3844/ajassp.2016.941.946

PETRESCU, F. I. T. (2014) Nuclear Fusion, Infinite Energy, v. 20, n. 1, p. 44-47.

PETRESCU, F. I. T. (2012a) Cold nuclear fusion. Plasma Physics and Fusion Technology (S70), INIS v. 44, n. 16.

PETRESCU, F. I. T. (2012b) Cold Nuclear Fusion, Create Space publisher, USA, July 2012, ISBN 978-1-4782-3426-5, 80 pages, English version.

PETRESCU, R. V.; AVERSA, R.; APICELLA, A.; LI, S.; CHEN, G.; MIRSAYAR, M. M.; PETRESCU, F. I. T. (2016b) Something about Electron Dimension, Am. J. Applied Sci., v. 13, n. 11, p. 1272-1276. Doi: 10.3844/ajassp.2016.1272.1276

PETRESCU, R. V.; AVERSA, R.; LI, S.; MIRSAYAR, M. M.; BUCINELL, R.; KOSAITIS, S.; ABU-LEBDEH, T.; APICELLA, A.; PETRESCU, F. I. T. (2017a) Electron Dimensions, American Journal of Engineering and Applied Sciences, v.10, n. 2, p. 584-602. Doi: 10.3844/ajeassp.2017.584.602

PETRESCU, R. V.; AVERSA, R.; KOZAITIS, S.; APICELLA, A.; PETRESCU, F. I. T. (2017b) Deuteron Dimensions, American Journal of Engineering and Applied Sciences, v. 10, n. 3. Doi: 10.3844/ajeassp.2017.649.654

PETRESCU, R. V.; AVERSA, R.; KOZAITIS, S.; APICELLA, A.; PETRESCU, F. I. T. (2017c) Some Proposed Solutions to Achieve Nuclear Fusion, American Journal of Engineering and Applied Sciences, v.10, n. 3. Doi: 10.3844/ajeassp.2017.703.708

PETRESCU, R. V.; AVERSA, R.; KOZAITIS, S.; APICELLA, A.; PETRESCU, F. I. T. (2017d) Some Basic Reactions in Nuclear Fusion, American Journal of Engineering and Applied Sciences, v. 10, n. 3. Doi: 10.3844/ajeassp.2017.709.716

PETRESCU, F. I. T.; PETRESCU, R. V. (2014). Nuclear Green Energy, IJAP v. 10, n. 1, p. 3-14.

PETRESCU, F. I. T. (2019) About the nuclear particles’ structure and dimensions. Comp. Part. Mech., v. 6, n. 2, p. 191-194. Doi : 10.1007/s40571-018-0206-7.

PETRESCU, F. I. T. (2018) About the Triton Structure. American Journal of Engineering and Applied Sciences, v. 11, n. 4, p. 1293-1297. Doi: 10.3844/ajeassp.2018.1293.1297

PETRESCU, N.; PETRESCU, F. I. T. (2018) Elementary Structure of Matter can be Studied with New Quantum Computers. American Journal of Engineering and Applied Sciences, v. 11, n. 2, p. 1062-1075. Doi: 10.3844/ajeassp.2018.1062.1075

PETRESCU, F. I. T.; PETRESCU, R. V. (2019) Nuclear hydrogen structure and dimensions, International Journal of Hydrogen Energy, v. 44, n. 21, p. 10833-10837. Doi : 10.1016/j.ijhydene.2019.02.140