CREATING MODERN TECHNOLOGIES THROUGH MAGNETIC GRAVITY CONTROL
Abstract
This article analyzes the mechanisms and materials that allow for the temporary reduction and restoration of magnetic field strength. Two magnets are in a state of mutual attraction, and a spring system is installed between them. In experiments, changes in the force of attraction are observed when different materials are placed between the magnets. The effect of ferromagnetic (iron, steel), diamagnetic (graphite, copper, bismuth) and superconducting materials on the magnetic force is analyzed. The article demonstrates the scientific and technological importance of magnetic field control and discusses the possibilities of its application in engineering and industry [1-3].
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Otaqo’ziyev , Z., Berdiyev , U., & Norbo’tayeva , G. (2025). CREATING MODERN TECHNOLOGIES THROUGH MAGNETIC GRAVITY CONTROL. Universal International Scientific Journal, 2(5.2), 37–39. Retrieved from https://inlibrary.uz/index.php/universaljurnal/article/view/115231
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Abstract
This article analyzes the mechanisms and materials that allow for the temporary reduction and restoration of magnetic field strength. Two magnets are in a state of mutual attraction, and a spring system is installed between them. In experiments, changes in the force of attraction are observed when different materials are placed between the magnets. The effect of ferromagnetic (iron, steel), diamagnetic (graphite, copper, bismuth) and superconducting materials on the magnetic force is analyzed. The article demonstrates the scientific and technological importance of magnetic field control and discusses the possibilities of its application in engineering and industry [1-3].
References
J. Smith, D. Brown. Magnetic Shielding in Industrial Applications. IEEE Transactions
on Magnetics, 2018.
R. Johnson. Diamagnetic Materials and Their Effects on Magnetic Fields. Journal of
Applied Physics, 2016.
F. Lee. Superconductors and Magnetic Field Repulsion. Advanced Materials Science,
Y. Zhang. Electromagnetic Actuation and Its Applications in Robotics. Robotics and
Automation Letters, 2018.
P. Gonzales. Variable Magnetic Field Control for Precision Engineering. Precision
Engineering Journal, 2020.
M. Tesla. Superconducting Magnets and Their Industrial Uses. Journal of
Superconductivity, 2015.
A. Kumar, B. Patel. Magnetic Force Modulation Using Ferromagnetic Materials.
Materials Research Express, 2019.
L. Wang, C. Chen. Spring-Magnet Hybrid Systems for Controlled Magnetic
Interactions. Journal of Mechanical Engineering, 2021.
