Xenon, compared to the noble gases of lower molar mass, is the one that forms more compounds, such as xenon fluorides (XeF2, XeF4 and XeF6) and oxides Based on information i) and ii) and, using the Valencia Bond Theory (TLV), explain the greater ease of xenon to form compounds compared to noble gases of lower molar mass. Consult the electronic configurations of the elements, if applicable. need. i) for the atoms of the noble gases Kr and Xe, in the ground state, the empty orbitals lowest energy are the nd, where n is the highest value principal quantum number corresponding to orbitals containing electrons; ii) for elements of the same group, as the principal quantum number increases, the energy difference between orbitals with the same principal quantum number decreases.
Xenon, compared to the noble gases of lower molar mass, is the one that forms more compounds, such as xenon fluorides (XeF2, XeF4 and XeF6) and oxides Based on information i) and ii) and, using the Valencia Bond Theory (TLV), explain the greater ease of xenon to form compounds compared to noble gases of lower molar mass. Consult the electronic configurations of the elements, if applicable. need. i) for the atoms of the noble gases Kr and Xe, in the ground state, the empty orbitals lowest energy are the nd, where n is the highest value principal quantum number corresponding to orbitals containing electrons; ii) for elements of the same group, as the principal quantum number increases, the energy difference between orbitals with the same principal quantum number decreases.
Principles of Modern Chemistry
8th Edition
ISBN:9781305079113
Author:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler
Publisher:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler
Chapter3: Atomic Shells And Classical Models Of Chemical Bonding
Section: Chapter Questions
Problem 25P
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Xenon, compared to the noble gases of lower molar mass, is the one that forms more
compounds, such as xenon fluorides (XeF2, XeF4 and XeF6) and oxides
Based on information i) and ii) and, using the Valencia Bond Theory (TLV),
explain the greater ease of xenon to form compounds compared to noble gases
of lower molar mass. Consult the electronic configurations of the elements, if applicable.
need.
- i) for the atoms of the noble gases Kr and Xe, in the ground state, the empty orbitals
lowest energy are the nd, where n is the highest value principal quantum number
corresponding to orbitals containing electrons;
- ii) for elements of the same group, as the principal quantum number increases, the
energy difference between orbitals with the same principal quantum number decreases.
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