1. In the Figure belowa. Name all radiative processes shown with arrows. For example,free-free emission, free-bound absorption, etc.b. Write principal quantum numbers of atomic level in the diagram.(For example, n=3.)c. Which transition in the Figure corresponds to the Lyman-deltaline? (Mark it in the diagram) Which one is a Balmer seriestransition? (Mark it in the diagram)-13.6 eV

Answered: Image /qna-images/answer/95e6d68e-3ca2-404c-a024-355f6782c4e6.jpg

Answered: 1. In the Figure below a. Name all…

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter30: Atomic Physics

Section: Chapter Questions

Problem 5CQ: How do the allowed orbits for electrons in atoms differ from the allowed orbits for planets around...

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How do the allowed orbits for electrons in atoms differ from the allowed orbits for planets around the sun? Explain how the correspondence principle applies here.
a) Calculate the ionization energy of helium atom in Joule.b) If light is used to release an electron, calculate its frequency.
The line absorption spectrum of a sample of hydrogen gas was observed in a laboratory at room temperature. Answer the questions 1and 2 in relation to this spectrum. 1- Explain why the observed spectral lines would mainly correspond to the Lyman series. 2- Explain how a line absorption spectrum in the Balmer series could be produced.
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4. A proton and an electron recombine to form atomic hydrogen in its 4p state. At what wavelengths will recombination lines be observed? Label each wavelength by its standard series notation. How would the observed emissions differ if the atoms had recombined to the 4s level? (This means that the initial state is the 4p state. Determine all possible transition where a photon is emitted after the formation of the 4p state including cascading transitions. Apply selection rules)
1. How does quantum mechanics describe an atom? 2. Write the electron configurations for zirconium (A=40) and yun (A=50). Draw their orbital diagrams. 3. Write an electron configuration for zinc. What type of magnetic property will it exhibit? Why?
Please explain and give the correct answer
Question 1- Molecular Spectroscopy Concepts and Applications Provide short answers on theory and concepts. a. A (2,2) fluorescence transition is usually not observed because: b. A hypothetical atom has three different energy states. Assuming all transitions are possible, how many spectral lines can this atom produce? c. A (3,0) absorption transition refers to: d. Which type of light microscopy provides superresolution imaging while correlating that data with surface topography as well? Briefly explain the part of the method that makes it possible. e. Intensities of transitions can be estimated by:
25. According to the image below answering all the questions. Each transition is labeled with a letter (A,B, etc) near its arrowhead. Each transition can be radiative, non-radiative, or both. (A) Select the arrow(s) that correspond to electronic excitation. (B) Select the arrow(s) that correspond to vibrational excitation. (C) Select the arrow(s) that correspond to IR absorption. (D) Select the arrow(s) that correspond to UV-visible absorption. (E) Select the arrow(s) that correspond to emission of a UV-visible photon. (F) Select the arrow(s) that correspond to thermal relaxation (non-radiative). (G) Select the arrow(s) that correspond to a chemical reaction (e.g. fragmentation). (H) Select the arrow(s) that correspond to intersystem crossing. All choosing options are the same as indicated below. -A -B -C -D -F -G -H
Solve using GUESS method. Atomic and Nuclear Phenomena 1. A hypothetical atom has three energy levels with consecutive levels differing by 1 eV. Find the frequency and wavelength that this atom can emit when going from an excited state to a lower energy state.
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1. The atomic polarizability a of Potassium (K) is 43.4 x 10-30 m2, calculate the radius of K atom. 2. Consider an electric dipole which is free to rotate about a point P in the center. If the dipole is placed in a non-uniform electric field what would the dipole will experience? Give also schematic illustration what would dipole experiences. 3. Briefly explain the fundamental difference between D field and Electric Field E 4. Under what conditions is the potential energy of a dipole in electric field vanishes and lowest. 5. Prove that the polarization flux through a closed surface is directly proportional to the enclosed bound charge 6. In your own words, explain the right-hand rule. 7. If a charge of 2 Coulombs moves with a velocity of v = âê + 2ŷ – 4ê in a magnetic field defined by B = 2ô + ý + 2, find the magnetic force exerted on the charge. 8. Calculate the magnetic field in an Amperian loop of radius 3m carrying a current of 12 Amperes.

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