Base your answers to questions 30 through 33 on e the following information. A photon with 14.60 electronvolts of energy collides with a mercury atom in its ground state. 30. Express the energy of the incident photon in joules. 31. Calculate the frequency of the incident photon. 32. In what region of the electromagnetic spectrum is the frequency of the incident photon? (1) gamma rays (2) infrared (3) visible (4) ultraviolet 33. If the photon collision ionizes the atom, what is the maximum energy that the electron removed from the atom can have? (1) 0.00 eV (2) 4.22 eV (3) 10.38 eV (4) 14.60 eV 34. Calculate the frequency of the photon emitted when the electron in an excited hydrogen atom changes from energy level n = 3 to n = 2.

This is one question with 5 parts so it is not against guidelines to answer all 5 parts. Please use simplistic terminology for the answers doesn’t have to to be long.

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Base your answers to questions 30 through 33 on the following information. in the A photon with 14.60 electronvolts of energy collides with a mercury atom in its ground state. encies 30. Express the energy of the incident photon in joules. ion 31. Calculate the frequency of the incident photon. 32. In what region of the electromagnetic spectrum is the frequency of the incident photon? (3) visible (4) ultraviolet uces (1) gamma rays (2) infrared 33. If the photon collision ionizes the atom, what is the maximum energy that the electron removed from the atom.can have? (1) 0.00 eV (2) 4.22 eV (3) 10.38 eV (4) 14.60 eV 34. Calculate the frequency of the photon emitted when the electron in an excited hydrogen atom changes from energy level n = 3 to n = 2. %3D Topic 6: Modern Physics 19