The element xenon (Xe) is by no means chemically inert;it forms a number of chemical compounds with electronegative elements such as fluorine and oxygen. The reaction of xenon with varying amounts of fluorine producesXeF2 and XeF4. Subsequent reaction of one or the otherof these compounds with water produces (depending onconditions) XeO3, XeO4, and H4XeO6, as well as mixedcompounds such as XeOF4. Predict the structures ofthese six xenon compounds, using the VSEPR theory.
Bond Parameters
Many factors decide the covalent bonding between atoms. Some of the bond parameters are bond angle, bond order, enthalpy, bond length, etc. These parameters decide what kind of bond will form in atoms. Hence it is crucial to understand these parameters in detail and understand how changing these parameters affects the kind of bonding or various characteristics.
Bond Dissociation Energy
The tendency of an atom to attract an electron is known as its electronegativity.
The element xenon (Xe) is by no means chemically inert;
it forms a number of chemical compounds with electronegative elements such as fluorine and oxygen. The reaction of xenon with varying amounts of fluorine produces
XeF2 and XeF4. Subsequent reaction of one or the other
of these compounds with water produces (depending on
conditions) XeO3, XeO4, and H4XeO6, as well as mixed
compounds such as XeOF4. Predict the structures of
these six xenon compounds, using the VSEPR theory.
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