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Studying the eigen value function of a perturbed hydrogen atom in its ground state with various orders is the goal of this investigation (1st, 2nd, 3rd, 4th, 5th, 6th and 7th). The new equation is created using the theoretic way to investigate the nature of eigen function. At various perturbed order parameters, it is discovered that the nature rapidly decreases with distance from the Bohr’s radius. Additionally, the nature with perturbed order parameters was discovered to be linear at various separations beyond Bohr’s radius. This demonstrates that while a large amount of energy is needed to perturbed a system close to the Bohr’s radius, very little energy is needed to perturbed a system farther away from the Bohr’s radius.

References

  1. Michels A, De Boer J, Bijl A. Remarks concerning molecular interaction and their influence on the polarisability. Physica, 1937; 4:998–994.
     Google Scholar
  2. Varshni YP. Accurate wavefunctions for the confined hydrogen atom at high pressures. Journal of Physics B: Atomic, Molecular Optics Physics, 1997; 30:1589–l593.
     Google Scholar
  3. Sternheimer RM. Electronic polarizabilities of ions from the Hartree-Fock wave functions. Physical Review, 1954; 96:951–968.
     Google Scholar
  4. Suto K. True nature of potential energy of a hydrogen atom. Physics Essays, 2009; 22(2):135-135
     Google Scholar
  5. Cavendish H. On Airs Fittizi. Lecture Note, 1766.
     Google Scholar
  6. Angstrom AJ. Recherches surle Spectre Solaire, Spectre Normal du Soleil. Atlas de Six Planches, Upsal, W Schultz, Imprimeur de l universitè; Berlin, Ferdinand, 1897.
     Google Scholar
  7. Thomson JJ, Cathode Rays. Philosophical Magazine. 1897; 44:293–316. http://dx.doi.org/10.1080/14786449708621070.
     Google Scholar
  8. Skylaris CK, Physical & Theoretical Chemistry. Laboratory South Parks Road, Oxford; 2006.
     Google Scholar
  9. Bohr N. On the Constitution of Atoms and Molecules. Philosophical Magazine, 1913; 26:1–25. https://doi.org/10.1080/14786441308634955.
     Google Scholar
  10. Nunni L. The Hydrogen Atom: a Review on the Birth of Modern Quantum Mechanics. ArXiv. 2015 [Internet] https://arxiv.org/abs/1501.05894.
     Google Scholar
  11. Agrawal BK, Prakash H. Quantum mechanics. Prentice-Hall of India Pvt. Ltd, New Delhi; 2004.
     Google Scholar