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19 Nov 2019
a.Solve the rydberg equation for wavelength in nom B. Solve the rydberg equation for n initial C. If the energy of the red line in the hydrogen spectra is 3.01*10^-19 calculate n initial 7a. What is n final B. What region are they found in
POST LAB QUESTIONS 6. Starting with the Rydberg equation: Ephoton.hc.RE - a) (3 pts) Solve the Rydberg equation for, λ, in nm: b) (3 pts) Solve the Rydberg equation for, ninitial: c. (2 pts) If the energy of the red line in the hydrogen atom spectra is, 3.01x10-19 J, use the equation from part b to calculate, ninitial n series of lines in hydrogen's emission spectrum are invisible to the human eye, but they can be detected photographically. 7·Thé Lyma e Lyman series of lines arise from transitions between higher excited states and level nfinal -region of the electromagnetic ä¸ b. (1 pt) These lines are found in the spectrum.
a.Solve the rydberg equation for wavelength in nom
B. Solve the rydberg equation for n initial
C. If the energy of the red line in the hydrogen spectra is 3.01*10^-19 calculate n initial
7a. What is n final
B. What region are they found in
POST LAB QUESTIONS 6. Starting with the Rydberg equation: Ephoton.hc.RE - a) (3 pts) Solve the Rydberg equation for, λ, in nm: b) (3 pts) Solve the Rydberg equation for, ninitial: c. (2 pts) If the energy of the red line in the hydrogen atom spectra is, 3.01x10-19 J, use the equation from part b to calculate, ninitial n series of lines in hydrogen's emission spectrum are invisible to the human eye, but they can be detected photographically. 7·Thé Lyma e Lyman series of lines arise from transitions between higher excited states and level nfinal -region of the electromagnetic ä¸ b. (1 pt) These lines are found in the spectrum.
Irving HeathcoteLv2
17 Jul 2019