Solving the Bohr Model of Atom: Transition from n=7 to n=5

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SUMMARY

The forum discussion addresses the calculation of mass change in a hydrogen atom during a transition from the n=7 to n=5 energy level. Participants clarify that the energy change can be calculated using the formula E=mc², where E represents the energy difference between the two states. The energy values must be converted to Joules for accurate calculations, specifically noting that 1 eV equals 1.6 x 10-19 J. The discussion emphasizes the relationship between energy release and mass change in quantum transitions.

PREREQUISITES
  • Understanding of quantum mechanics, specifically energy levels in hydrogen atoms.
  • Familiarity with the mass-energy equivalence principle (E=mc²).
  • Knowledge of energy unit conversions, particularly between electronvolts (eV) and Joules (J).
  • Basic proficiency in performing calculations involving scientific notation.
NEXT STEPS
  • Study the derivation of energy levels in the hydrogen atom using the Bohr model.
  • Learn about mass-energy equivalence and its applications in quantum physics.
  • Explore energy conversion techniques between eV and Joules for various physical calculations.
  • Investigate the implications of mass change during atomic transitions in different elements.
USEFUL FOR

Students and educators in physics, particularly those focusing on quantum mechanics, atomic structure, and energy transformations. This discussion is also beneficial for anyone interested in the practical applications of the Bohr model in understanding atomic behavior.

Jodi
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Hi; Could someone please help me with this question: By what fraction does the mass of an H atom decrease when it makes an n=7 to n=5 transition? How would I go about this question? Thank you.
 
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There's a mass change?
 


I guess so. That's what confuses me about the question. I don't know how to incorporate the mass into it. Does anyone know how to do this? Thanks.
 
What's the energy change?

Next, use E=mc^2.
 


Ok, so I find the energy change by doing E of upper state - energy of lower state right? So I get (-0.2) - (-0.5) = 0.3 After I find this energy change, how do i find the decrease in mass? If I use E=mc^2, I plug in 0.3 into E and 1.00794 into m? What am I solving for? I'm confused. Thanks for your help.
 
As per E=mc^2 , Mass is the condensed form of energy . So whenever energy is released from particle , it is accompanied by a small mass change. So calculate the energy change from one state to another , and then equate the energy change with mc^2.

BJ
 
You're trying to find m. c is the speed of light, which is 3 \times 10^8 m/s. If you want m in kilograms, you need E in Joules. Your 0.3 is not in Joules, so you'll need to convert it.

If your energies are in eV, the conversion is: 1 eV = 1.6 \times 10^{-19} J
 

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