Proposed Innovative Correlations for some Nuclear and Radiological Fields using Theorem of S. El-Mongy
Keywords:innovative proposed formulas, different nuclear and radiological laws, eπ term, Sayed`s formula
Thinking and thought are divine urge in the Great Quran. The published S. El-Mongy theorem (L= eπrsA) correlates eπ with radius r of circular and spherical geometries by a factor sA (θ/10ϕ) to be used for calculations of arc length and astronomical distance. In this article, Sayed’s formula was used to produce correlations with the well-established laws and formulas of different nuclear and radiological fields. The formula was directed to be correlated with half-life time, activity, flux, reaction rate, reactor power, mean free path, photon fluence rate, radiation dose rate and half value thickness equations. It was also oriented to calculate fuel rods circumstances of different reactor types; PWR, BWR, VVER1200 and Candu-6. The produced correlations of eπ and sA with the above mentioned topics are given with simplified reduced forms, limitation and some comparative calculations between old and the proposed innovative formulas. New formulas for sphere volume and surface area and cylinder are also given based on eπ term.
Sayed A. El-mongy, “New theorem for arc length calculation with trigonometric approach application in astrophysics”, IJAP, vol. 17, 2020. DOI: https://doi.org/10.24297/jap.v18i.8914
Khairi Abdullah,” Fundamentals in nuclear physics”, University of Duhok, Iraq, 2014.
https://en.wikipedia.org/wiki/History_of_science, updated in December 2020.
Ian Stewart. “17 Mathematical Equations that Changed the world”, Basic Book, USA, 2013.
H. Cember and T. E. Johnson,” Introduction to health physics”, 4th edition, McGraw –Hill, USA, 2009.
G. F. Knolls, “Radiation detection and measurement”, 4th edition, Wiley, USA, 2010.
D.L. Bailey, J.L. Humm A. Todd-Pokropek, A. van Aswegen, “Nuclear Medicine Physics: A Handbook for teachers and students”, IAEA, Austria, 2014.
James T. (Tom) Voss, “Radiation Monitoring Notebook”, Los Alamos, LA-UR-00-2584, USA. 2001.
Technical group. “Reactor Physics, Science and Reactor Fundamentals”, CNSC, Canada, 2003.
Hiroshi Sekimoto, “Nuclear Reactor Theory“, Tokyo Institute of Technology, COE-INES Textbook, 2007.
Lamarsh, John R., “Introduction to Nuclear Reactor Theory”, American Nuclear Society, USA, 2002.
Nuclear physics and reactor theory, Module 2: Neutron Characteristics, DOE, USA, 2011.
Glasstone, Samuel and Sesonske, Alexander, “Nuclear Reactor Engineering”, 4th Edition, Van Nostrand Reinhold Company, USA, 1994.
B. Rouben Manager, “Introduction to Reactor Physics”, Atomic Energy of Canada Ltd. , Canada, 2002.
John H. Bickel.” Fundamentals of Nuclear Engineering”, Neutron Induced Reactions, USA, 2012
A. S. M. Fakhrul Islam, “Modeling of neutron interaction inside a 2D reactor using Monte Carlo method”, M.Sc. thesis in nuclear engineering, University of South Carolina, USA, 2019.
Allen G. Croll,”Reactors and fuels”, Introduction to nuclear chemistry and fuel cycle separations, Vanderbilt university, Tennessee, USA, 2008.
Kenneth D. Kok, “Nuclear engineering handbook”, CRC Press, USA, 2009.
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