<

This Article Statistics
Viewed : 209 Downloaded : 130 Cited : 0


 

Planck’s Constant and Equation for Magnetic Field Waves

C. Ganesa Moorthy*, G. Udhaya Sankar

DOI: 10.28978/nesciences.567061

Abstract

The classical Planck’s equation E = hν in terms of frequency ν is applicable for all light rays including x-rays and gamma rays. A new Planck equation E = ⓗλ in terms of wavelength λ is found for all magnetic field waves including radio waves. The new Planck constant ⓗ is found, approximately, and a one-to-one correspondence between ν for light rays and λ for magnetic field waves is established. This correspondence provides an equality relation for penetrating capacities of a light ray radiation and a corresponding magnetic ray radiation. This equality relation helps to calculate penetrating capacity of a magnetic field wave from penetrating capacity of a light wave.

Keywords

Planck’s constant, speed of light, electromagnetic waves

Download full text   |   How to Cite   |   Download XML Files

References
  • Abbott, B. P., Abbott, R., Abbott, T. D., Abernathy, M. R., Acernese, F., Ackley, K., & Adya, V. B. (2016). Observation of gravitational waves from a binary black hole merger. Physical review letters, 116(6), 061102.
  • Altan, G., & Kutlu, Y. (2018). Generative Autoencoder Kernels on Deep Learning for Brain Activity Analysis. Natural and Engineering Sciences, 3(3), 311-322.
  • Boyer, T. H. (2018). The contrasting roles of Planck's constant in classical and quantum theories. American Journal of Physics, 86(4), 280-283.
  • Damaceno, L. P., Mascarin, R., Nogueira, J. M. P., Magalhães, D. V., & Bagnato, V. S. (2019). The new definition of the kilogram in terms of Planck's constant. Revista Brasileira de Ensino de Física, 41(3).
  • Dos Santos Filho, V., & Porcelli, E. B. (2019). On the Possible Anomaly of Asymmetric Weight Reduction of Gyroscopes under Rotation. Trends Journal of Sciences Research, 4(1), 29-38.
  • Eichenberger, A., Baumann, H., Jeanneret, B., Jeckelmann, B., Richard, P., & Beer, W. (2011). Determination of the Planck constant with the METAS watt balance. Metrologia, 48(3), 133.
  • Golse, F., Paul, T., & Pulvirenti, M. (2018). On the derivation of the Hartree equation from the N-body Schrödinger equation: Uniformity in the Planck constant. Journal of Functional Analysis, 275(7), 1603-1649.
  • Gurzadyan, V. G., & Stepanian, A. (2019). Cosmological constant as a fundamental constant. arXiv preprint arXiv:1901.10299.
  • Kallosh, R., Linde, A., & Yamada, Y. (2019). Planck 2018 and brane inflation revisited. Journal of High Energy Physics, 2019(1), 8.
  • Kozmanyan, A., Bourdin, H., Mazzotta, P., Rasia, E., & Sereno, M. (2019). Deriving the Hubble constant using Planck and XMM-Newton observations of galaxy clusters. Astronomy & Astrophysics, 621, A34.
  • Moorthy, C. G., Sankar, G. U., & Kumar, G. (2017). What Is The Polarity Of An Electromagnetic Wave?. Indian J. Sci. Res, 13(1), 255-256.
  • Moorthy, C. G., Sankar, G. U., & RajKumar, G. (2017a). A Design for Charging Section of Electrostatic Precipitators by Applying a Law for Electric Field Waves. Imperial Journal of Interdisciplinary Research, 3(6), 842-844.
  • Moorthy, C. G., Sankar, G. U., & RajKumar, G. (2017b). LIGOs Detected Magnetic Field Waves; not Gravitational Waves. Imperial Journal of Interdisciplinary Research, 3(8), 268-269.
  • Moorthy, C. G., Sankar, G. U., & Rajkumar, G. (2017c). Two Expressions for Electrostatic Forces and For Magnetic Forces to Classify Electromagnetic Waves. Imperial Journal of Interdisciplinary Research, 3(10), 706-709.
  • Moorthy, C. G., Sankar, G. U., & RajKumar, G. (2018). Temperature of Black Holes and Minimum Wavelength of Radio Waves. International Journal of Scientific Research in Science, Engineering and Technology, 4(4), 1104-1107.
  • Räsänen, S., & Tomberg, E. (2019). Planck scale black hole dark matter from Higgs inflation. Journal of Cosmology and Astroparticle Physics, 2019(01), 038.
  • Steiner, R. L., Williams, E. R., Newell, D. B., & Liu, R. (2005). Towards an electronic kilogram: an improved measurement of the Planck constant and electron mass. Metrologia, 42(5), 431.
  • Steiner, R. (2012). History and progress on accurate measurements of the Planck constant. Reports on Progress in Physics, 76(1), 016101.
  • Tohma, K., Turgut, İ., Korkmaz, C., & Kutlu, Y. (2016). Performance Evaluation of Mobile Base Station under different Network Sizes on Cluster-Based Wireless Sensor Networks. Natural and Engineering Sciences. 1(3), 1-9.
  • Williams, E. R., Steiner, R. L., Newell, D. B., & Olsen, P. T. (1998). Accurate measurement of the Planck constant. Physical Review Letters, 81(12), 2404.
  • Zhu, Y. (2018). Gravitational-magnetic-electric field interaction. Results in Physics, 10, 794-798.