Textbook Question
An energetically excited hydrogen atom has its electron in a 5f subshell. The electron drops down to the 3d subshell, releasing a photon in the process. (b) What wavelength of light is emitted by the process?
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Ch.5 - Periodicity & Electronic Structure of Atoms
Chapter 5, Problem 139c
Consider the noble gas xenon. (c) The energy required to completely remove the outermost electron from the excited xenon atom is 369 kJ/mol, almost identical to that of cesium (376 kJ/mol). Explain.
Verified step by step guidance1
Understand that the energy required to remove an electron from an atom is known as ionization energy.
Recognize that xenon is a noble gas with a stable electron configuration, but in an excited state, it can have a similar ionization energy to cesium.
Consider that in the excited state, xenon's outermost electron is in a higher energy level, making it easier to remove, similar to cesium's outermost electron.
Note that cesium, being an alkali metal, naturally has a low ionization energy due to its single valence electron being far from the nucleus.
Conclude that the similarity in ionization energies is due to the excited state of xenon, which alters its electron configuration to resemble that of cesium.
Verified Solution
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Ionization Energy
Ionization energy is the amount of energy required to remove an electron from an atom or ion in its gaseous state. It reflects the strength of the attraction between the nucleus and the outermost electron. For noble gases like xenon, the ionization energy is relatively high due to their full valence shell, while for alkali metals like cesium, it is lower due to their single valence electron being more easily removed.
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01:19
Ionization Energy
Atomic Structure and Electron Configuration
The atomic structure of an element, including its electron configuration, determines its chemical properties and reactivity. Xenon has a complete outer shell (8 electrons), making it stable, while cesium has one electron in its outermost shell. The similarities in ionization energy between xenon and cesium can be attributed to the effective nuclear charge and the distance of the outermost electron from the nucleus.
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01:33Electron Configuration Example
Effective Nuclear Charge
Effective nuclear charge (Z_eff) is the net positive charge experienced by an electron in a multi-electron atom. It accounts for the shielding effect of inner electrons. In the case of xenon and cesium, the effective nuclear charge influences the energy required to remove the outermost electron, leading to similar ionization energies despite their differing positions in the periodic table.
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01:51Effective Nuclear Charge
Related Practice
Textbook Question
An energetically excited hydrogen atom has its electron in a 5f subshell. The electron drops down to the 3d subshell, releasing a photon in the process. (c) The hydrogen atom now has a single electron in the 3d subshell. What is the energy in kJ/mol required to remove this electron?
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Textbook Question
Consider the noble gas xenon. (a) Write the electron configuration of xenon using the abbreviation of the previous noble gas.
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Textbook Question
Red light with a wavelength of 660 nm from a 3.0 mW diode
laser shines on a solar cell.
(b) How much current (in amperes) flows in the circuit of
the solar cell if all the photons are absorbed by the cell
and each photon produces one electron?
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