The energy-level diagram for the atomic emission spectra of an unknown gas is presented in the diagram below. n=4 4.2 ev vd v od Color Wavelength Frequency Photon energy n= 3 2.4 ev violet 380-450 nm 668-789 THz 2.75-3.26 ev blue 450-495 nm 606-668 THE 2.50-2.75 ev n=2 2.0 ev green 495-570 nm 526-606 THz 2.17-2.50 ev yellow 570-590 nm s08-526 THz 2.10-2.17 ev orange 590620 nm 484-508 THz 2.00-2.10 ev red 620-750 nm 400-484 THz 1.65-2.00 ev O ev n=1 Oev Part A Initially, electrons are in both the ground and first excited state (n=1 and n=2). A beam of light hits the gas. This beam is a continuous spectrum of yellow/green light (from 495 nm to 590 nm) How many absorption line/s will there be in the spectra? 2 Submit Previous Answers v Correct Part B Calculate the wavelength of the absorption lines. Separate answers by a comma. 518,565 nm - Part C After absorption of the yellowigreen light, how many emission lines are possible? Iνα ΑΣφ Submit Reguest Answer

The energy-level diagram for the atomic emission spectra of an unknown gas is presented in the diagram below. n=4 4.2 ev vd v od Color Wavelength Frequency Photon energy n= 3 2.4 ev violet 380-450 nm 668-789 THz 2.75-3.26 ev blue 450-495 nm 606-668 THE 2.50-2.75 ev n=2 2.0 ev green 495-570 nm 526-606 THz 2.17-2.50 ev yellow 570-590 nm s08-526 THz 2.10-2.17 ev orange 590620 nm 484-508 THz 2.00-2.10 ev red 620-750 nm 400-484 THz 1.65-2.00 ev O ev n=1 Oev Part A Initially, electrons are in both the ground and first excited state (n=1 and n=2). A beam of light hits the gas. This beam is a continuous spectrum of yellow/green light (from 495 nm to 590 nm) How many absorption line/s will there be in the spectra? 2 Submit Previous Answers v Correct Part B Calculate the wavelength of the absorption lines. Separate answers by a comma. 518,565 nm - Part C After absorption of the yellowigreen light, how many emission lines are possible? Iνα ΑΣφ Submit Reguest Answer

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 70PE: Construct Your Own Problem The solar corona is so hot that most atoms in it are ionized. Consider a...

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. Figure 10.47 is the energy-level diagram for a particularly simple, fictitious element, Vernium (Vn). Indicate by the use of arrows all allowed transitions leading to the emission of photons from this atom and order the frequencies of these photons from highest (largest) to lowest (smallest).
Unreasonable Results (a) Assuming it is nonrelativistic, calculate the velocity of an electron with a 0.100-fm wavelength (small enough to detect details of a nucleus). (b) What is unreasonable about this result? (c) Which assumptions are unreasonable or inconsistent?
Construct Your Own Problem The solar corona is so hot that most atoms in it are ionized. Consider a hydrogen-like atom in the corona that has only a single electron. Construct a problem in which you calculate selected spectral energies and wavelengths of the Lyman, Balmer, or other series of this atom that could be used to identify its presence in a very hot gas. You will need to choose the atomic number of the atom, identify the element, and choose which spectral lines to consider.
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Calculate the binding energy in eV of electrons in aluminum, if the longest-wavelength photon that can eject them is 304 nm.
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(a) Find the velocity of a neutron that has a 6.00-fm wavelength (about the size of a nucleus). Assume the neutron is nonrelativistic. (b) What is the neutron's kinetic energy in MeV?
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Rutherford found the size of the nucleus to be about 10-15 m. This implied a huge density. What would this density be for gold?
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