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An electron in the hydrogen atom makes a transition from an energy state of principal quantum numbers into the n=2 state. If the photon emitted has a wavelength of 434 nm, what is the value of ni? (RH = 2.18 X 10-18 J)

Respuesta :

If an electron in a hydrogen atom changes from an energy level with primary quantum numbers to the n=2 state, emitting a photon with a wavelength of 434 nm, the value of ni is five.

what does Rydberg's equation explains?

The wavelength of light produced by an electron transitioning between atomic energy levels is predicted by the Rydberg formula. There is just one spectral fingerprint for each element. Light is created when an element is heated in its gaseous state. Bright lines of different colours can be seen when this light filters through a prism or diffraction grating. Each component stands out from the others in some way.

According to the question:

  • A single electron species makes up hydrogen.
  • De-excited from one energy level to another, the electron emits a photon with a certain wavelength.
  • To determine the energy level from which the electron has transitioned, we must utilise Rydberg's formula

To know more about Rydberg's equation:

https://brainly.com/question/13185515

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