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12 Nov 2019
Calculate the energy of an electron of the hydrogen atom when it is in the energy levels 1. indicated: a) n-3 b) n = 6 c) n = 2. Using Bohr's Equation calculate the energy change experienced by an electron when it undergoes transitions between the following energy levels. 3. Using Bohr's Theory (not Rydberg's equation) calculate the wavelength, in units of nanometers, of the electromagnetic radiation emitted for the electron transition n-6â3. (1 m=109 nm). In what region of the electromagnetic spectrum (UV? microwave? etc.) would the electromagnetic radiation occur for the transition n = 6 â n-37 on Electromagnetic Radiation in your chemistry text.) (Hint: See the section 5. In the flame test, why must Srt be tested last? 6. In the flame test if two ions have similar colors what will help you disting the other?
Calculate the energy of an electron of the hydrogen atom when it is in the energy levels 1. indicated: a) n-3 b) n = 6 c) n = 2. Using Bohr's Equation calculate the energy change experienced by an electron when it undergoes transitions between the following energy levels. 3. Using Bohr's Theory (not Rydberg's equation) calculate the wavelength, in units of nanometers, of the electromagnetic radiation emitted for the electron transition n-6â3. (1 m=109 nm). In what region of the electromagnetic spectrum (UV? microwave? etc.) would the electromagnetic radiation occur for the transition n = 6 â n-37 on Electromagnetic Radiation in your chemistry text.) (Hint: See the section 5. In the flame test, why must Srt be tested last? 6. In the flame test if two ions have similar colors what will help you disting the other?
Deanna HettingerLv2
5 Mar 2019