An atom of some element X has three electronic transitions, A, B, and C. Suppose that it has been found that the wavelength for transition A is 446.5 nm and that for B is 633.0 nm.
(a) What is the energy (in J) for a photon given off in transition C?
(b) What is the wavelength (in nm) for transition C?
An atom of some element X has three electronic transitions, A, B, and C. Suppose that...
3. An atom of some element X has three electronic transitions, A, B, and C. Suppose that it has been found that the wavelength for transition A is 407.7 nm and that for B is 690.0 nm. (a) What is the energy in J) for a photon given off in transition C? (b) What is the wavelength (in nm) for transition C? Energy
Considering the generic atomic orbital energy diagram; rank the three proposed electronic transitions-1s → 2s , 2s → 2p 34s-from lowest energy photon to highest energy photon required to induce the three proposed transitions. 9. 10. If an electronic transition from 4s3s results in emission of a "green" photon for a given elemental atom, then the electronic transition from 2s 1s would result in emission of a "red" or "blue" photon? 11. Considering the atomic orbital energy diagram in the...
Of the following transitions in the Bohr hydrogen atom, the _______ transition results in the emission of the lowest-energy photon.When the electron in a hydrogen atom moves from n = 6 ton = 2, light with a wavelength of nm is emitted.
11. For the electronic transition from n 3 to n 5 in the hydrogen atom, calculate the energy wavelength (in nm). 12. Calculate the energy of a photon of frequency 5.20x1o' s1. 11. For the electronic transition from n 3 to n 5 in the hydrogen atom, calculate the energy wavelength (in nm). 12. Calculate the energy of a photon of frequency 5.20x1o' s1.
The Paschen series are those transitions in the hydrogen atom that end in the 3rd energy level. a) Sketch the energy level diagram showing the first four transitions. b) A photon with a wavelength of 1.29x10-6 m is emitted. Which transition produced this photon?
An imaginary atom has just three energy levels 0 eV, 1 eV, and 3 eV. Draw an energy level diagram for this atom, and show all possible transitions between these energy levels. For each transition, determine the photon energy and the photon wavelength. Which transitions involve the emission or absorption of visible light?
Five possible transitions for a hydrogen atom are listed below: Select whether the atom gains or loses energy for each transition. Loses: n_i = 4, n_f = 2 Loses: n_i = 7; n_f = 4 Gains: n_i = 2; n_f = 5 Gains: n_i = 3; n_f = 6 Gains: n_i = 3; n_f = 4 Find the transition where the atom gains the most energy. How much energy does the atom gain? 2.86 eV Find the transition which will...
3. Calculate the wavelength, frequency, and energy of a photon emitted by the following transitions in a hydrogen atom: (Show your work to receive full credit) 6--->5 A)Wavelength(in nm) B)Frequency (in s^-1) C) Energy of photon (in J)
suppose an atom absorbs a single photon and then gives back the energy of that photon in two successive transition. one transition produces a photon of 400nm, and the second transition produces a photon of 200nm. what is the wavelength in nm, of the original photon?
The diagram represents energy transitions for an electron in an atom. Lines B and C correspond to photons in the visible spectrum but Lines A and D do not. Select the TRUE statement n = 5 ENERGY с се n = 1 Line A corresponds to the photon with the highest frequency. Line D corresponds to the photon with the highest frequency Line A corresponds to a photon with a longer wavelength than Line B. Line D corresponds to a...