The figure shows part of the energy level diagram of a certain atom. The energy spacing between levels 1 and 2 is twice that between 2 and 3
Part A)
The figure shows part of the energy level diagram of a certain atom. The energy spacing between levels 1 and 2 is twice that between 2 and 3. If an electron makes a transition from level 3 to level 2, the radiation of wavelength A is emitted. What possible radiation wavelengths might be produced by other transitions between the three energy levels?
Part B)
What is the energy required to remove the electron from a hydrogen atom in the n 11 state?
Select the correct answer
1.24 eV
0.112 eV
12.4 eV
13.5 eV
Homework Answers
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The figure shows part of the energy level diagram of a certain atom. The energy spacing between levels 1 and 2 is twice that between 2 and 3
Energy (eV) 1. The figure to the right shows the first few energy levels for lithium. The ground state for the valence electron (the electron most likely to change 4 energy levels) is the 2s state wh...
Energy (eV) 1. The figure to the right shows the first few energy levels for lithium. The ground state for the valence electron (the electron most likely to change 4 energy levels) is the 2s state which is why that state is set to O eV. Make a table showing all possible transitions in the emission spectrum. For each possible transition indicate A. Energy change of possible transition. B. At for the transition. Is the transition allowed? C. Wavelength of...
A certain type of atom (not hydrogen) has three energy levels numbered 1, 2, and 3,...
A certain type of atom
(not hydrogen) has three energy levels numbered 1, 2, and
3, as shown in the upper illustration. There are three possible
transitions between these levels that lead to emission of a photon:
3 ® 1, 3 ® 2, and 2 ® 1.
The lower illustration shows the emission spectrum from a gas of
these atoms. There are three emission lines, A, B, and C.
(a) Rank the photons emitted in the transitions 3 ®...
An imaginary atom has just three energy levels 0 eV, 1 eV, and 3 eV. Draw...
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?
This en l agram shows the allowed energy levels of an electron in a certain atom....
This en l agram shows the allowed energy levels of an electron in a certain atom. (Note: the SI prefix 'zepto' means 10 any SI EA in the ALEKS Data tab.) . You can find the meaning of energy (23) Use this diagram to complete the table below. What is the energy of the electron in the ground state? x 5 ? What is the energy of the electron in the first excited state? If the electron makes the transition...
a.) In your energy level sketch, make a vertical arrow between the levels that illustrates an...
a.) In your energy level sketch, make a vertical arrow between the levels that illustrates an electron transition from n = 5 to n = 2. Find the energy change, in joules, for a single hydrogen electron undergoing this transition. Convert the energy change to units of kilojoules per mole of electrons. Find the energy, frequency, and wavelength of the photon emitted from a single hydrogen atom whose electron undergoes the relaxation. Label each result clearly.
asap 6. (a) Calculate the difference in energy, AE, between the n=3 and n 2 energy...
asap
6. (a) Calculate the difference in energy, AE, between the n=3 and n 2 energy levels in a Bohr hydrogen atom. I (b) Calculate the wavelength (in nm) of the light emitted when an electron drops from the n=3 to the n 2 energy level of a Bohr hydrogen atom. 7) Of the following transitions in the Bohr hydrogen atom, the results in the absorption of the highest-energy photon. A) n 1-n= 6 B) n-3n-6 C) n 1n=4 transition...
A hydrogen atom in a state having a binding energy (the energy required to remove an...
A hydrogen atom in a state having a binding energy (the energy required to remove an electron) of -0.850 eV makes a transition to a state with an excitation energy (the difference between the energy of the state and that of the ground state) of 12.089 eV. (a) What is the energy of the photon emitted as a result of the transition? What are the (b) higher quantum number and (c) lower quantum number of the transition producing this emission?...
Part A What is the change in energy ?E of the hydrogen atom as the electron...
Part A What is the change in energy ?E of the hydrogen atom as the electron makes the transition from the n=3 energy level to the n=1 energy level? Express your answer numerically in electron volts. Part B When an atom makes a transition from a higher energy level to a lower one, a photon is released. What is the wavelength of the photon that is emitted from the atom during the transition from n=3 to n=1? Express your answer...
Part A A hydrogen atom makes a transition from the n = 5 state to a...
Part A A hydrogen atom makes a transition from the n = 5 state to a lower energy state. If the emitted photon has an energy of E = 0.306 eV, what is the quantum number of the lower state? n = 4 Submit Previous Answers Correct VP 28.6.2. Part B A hydrogen atom is excited into the n = 5 state and then decays to a lower energy state. What are the possible wavelengths of the emitted photon? Enter...
The diagram below shows the first four energy levels in a hydrogen atom.
The diagram below shows the first four energy levels in a hydrogen atom. Illustrate the allowed transition from the excited state to the ground state with an arrow that releases the shortest wavelength radiation. Explain. Then answer questions a & b.
Energy (eV) 1. The figure to the right shows the first few energy levels for lithium. The ground state for the valence electron (the electron most likely to change 4 energy levels) is the 2s state which is why that state is set to O eV. Make a table showing all possible transitions in the emission spectrum. For each possible transition indicate A. Energy change of possible transition. B. At for the transition. Is the transition allowed? C. Wavelength of...
A certain type of atom
(not hydrogen) has three energy levels numbered 1, 2, and
3, as shown in the upper illustration. There are three possible
transitions between these levels that lead to emission of a photon:
3 ® 1, 3 ® 2, and 2 ® 1.
The lower illustration shows the emission spectrum from a gas of
these atoms. There are three emission lines, A, B, and C.
(a) Rank the photons emitted in the transitions 3 ®...
This en l agram shows the allowed energy levels of an electron in a certain atom. (Note: the SI prefix 'zepto' means 10 any SI EA in the ALEKS Data tab.) . You can find the meaning of energy (23) Use this diagram to complete the table below. What is the energy of the electron in the ground state? x 5 ? What is the energy of the electron in the first excited state? If the electron makes the transition...
asap
6. (a) Calculate the difference in energy, AE, between the n=3 and n 2 energy levels in a Bohr hydrogen atom. I (b) Calculate the wavelength (in nm) of the light emitted when an electron drops from the n=3 to the n 2 energy level of a Bohr hydrogen atom. 7) Of the following transitions in the Bohr hydrogen atom, the results in the absorption of the highest-energy photon. A) n 1-n= 6 B) n-3n-6 C) n 1n=4 transition...
Part A A hydrogen atom makes a transition from the n = 5 state to a lower energy state. If the emitted photon has an energy of E = 0.306 eV, what is the quantum number of the lower state? n = 4 Submit Previous Answers Correct VP 28.6.2. Part B A hydrogen atom is excited into the n = 5 state and then decays to a lower energy state. What are the possible wavelengths of the emitted photon? Enter...
The diagram below shows the first four energy levels in a hydrogen atom. Illustrate the allowed transition from the excited state to the ground state with an arrow that releases the shortest wavelength radiation. Explain. Then answer questions a & b.
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