The formulas for the ionic compounds formed by the given transition metals with the bromide ion, Br − are to be written. Concept Introduction: An ionic compound is a compound that consists of ions having electrostatic interaction between them. These interactions are termed as ionic bonding. The element symbols and subscripts present in an ionic compound are represented with the help of a chemical formula. While writing the chemical formula for an ionic compound, the symbol of the metal is written first which is followed by the symbol of the non-metal. Formal charge equation can be given as: Formal charge = number of valence electrons − 1 / 2 number of shared electrons − number of unsharedelectrons or F = Z − ( 1 / 2 ) S − U where F is the formal charge, Z is the group number of the element, S equals the number of shared electrons, and U is the number of unshared electrons. The arithmetic sum of all the formal charges in a molecule or ion will equal the overall charge on the molecule or ion.
The formulas for the ionic compounds formed by the given transition metals with the bromide ion, Br − are to be written. Concept Introduction: An ionic compound is a compound that consists of ions having electrostatic interaction between them. These interactions are termed as ionic bonding. The element symbols and subscripts present in an ionic compound are represented with the help of a chemical formula. While writing the chemical formula for an ionic compound, the symbol of the metal is written first which is followed by the symbol of the non-metal. Formal charge equation can be given as: Formal charge = number of valence electrons − 1 / 2 number of shared electrons − number of unsharedelectrons or F = Z − ( 1 / 2 ) S − U where F is the formal charge, Z is the group number of the element, S equals the number of shared electrons, and U is the number of unshared electrons. The arithmetic sum of all the formal charges in a molecule or ion will equal the overall charge on the molecule or ion.
Solution Summary: The author explains the formulas for the ionic compounds formed by the given transition metals with the bromide
Definition Definition Elements containing partially filled d-subshell in their ground state configuration. Elements in the d-block of the periodic table receive the last or valence electron in the d-orbital. The groups from IIIB to VIIIB and IB to IIB comprise the d-block elements.
Chapter 2, Problem 94RQ
Interpretation Introduction
Interpretation:
The formulas for the ionic compounds formed by the given transition metals with the bromide ion, Br− are to be written.
Concept Introduction:
An ionic compound is a compound that consists of ions having electrostatic interaction between them. These interactions are termed as ionic bonding.
The element symbols and subscripts present in an ionic compound are represented with the help of a chemical formula.
While writing the chemical formula for an ionic compound, the symbol of the metal is written first which is followed by the symbol of the non-metal.
Formal charge equation can be given as:
Formal charge = number of valence electrons −1/2 number of shared electrons− number of unsharedelectrons or
F=Z−(1/2)S− U
where F is the formal charge, Z is the group number of the element, S equals the number of shared electrons, and U is the number of unshared electrons.
The arithmetic sum of all the formal charges in a molecule or ion will equal the overall charge on the molecule or ion.
Many chemical names are similar at first glance. Give the formulas of the species in each set:
(a) Ammonium ion and ammonia
(b) Magnesium sulfide, magnesium sulfite, and magnesium sulfate
(c) Hydrochloric acid, chloric acid, and chlorous acid
(d) Cuprous bromide and cupric bromide
The following ionic compounds are found in common household products. Write the formulas for each compound:(a) potassium phosphate(b) copper(II) sulfate(c) calcium chloride(d) titanium(IV) dioxide(e) ammonium nitrate(f) sodium bisulfate (the common name for sodium hydrogen sulfate)
Write the formulas of the following compounds:(a) lithium carbonate(b) sodium perchlorate(c) barium hydroxide(d) ammonium carbonate(e) sulfuric acid(f) calcium acetate(g) magnesium phosphate(h) sodium sulfite
Author:Steven D. Gammon, Ebbing, Darrell Ebbing, Steven D., Darrell; Gammon, Darrell Ebbing; Steven D. Gammon, Darrell D.; Gammon, Ebbing; Steven D. Gammon; Darrell
Author:Steven D. Gammon, Ebbing, Darrell Ebbing, Steven D., Darrell; Gammon, Darrell Ebbing; Steven D. Gammon, Darrell D.; Gammon, Ebbing; Steven D. Gammon; Darrell