The light of the "alpha line" in the Balmer series of the hydrogen spectrum has a wavelength of 6.58 X 10-7 meter in air. 27. Calculate the energy of an "alpha line" photon in joules. 28. What is the energy of an "alpha line" photon in electronvolts? 29. Using your answer to question 28, explain whether or not this result verifies that the "alpha line" corresponds to a transition from energy level n = 3 to energy level ri = 2 in a hydrogen atom.

This is one question with 3 parts so it is not against guidelines to answer all 3 parts. Please use simplistic terminology for the answers doesn’t have to to be long. Your are looking at 27-29

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the elec 25. Express the energy of the emitted photon in joules. е ts 26. Calculate the frequency of the emitted photon. Base your answers to questions 27 through 29 on the information below. The light of the "alpha line" in the Balmer series of the hydrogen spectrum has a wavelength of 6.58 X 10- meter in air. 27. Calculate the energy of an "alpha line" photon in joules. 28. What is the energy of an "alpha line" photon in electronvolts? 29. Using your answer to question 28, explain whether or not this result verifies that the "alpha line" corresponds to a transition from energy level n = 3 to energy level n = 2 in a hydrogen atom. |3| Base your answers to questions 30 through 33 on the following information. A photon with 14.60 electronvolts of energy collide with a mercury atom in its ground state. 30. Express the energy of the incident nhoton i