The Lewis structure for the chlorate ion is :0: Calculate the formal charge on the chlorine (Cl ) atom. Express your answer as an integer. , View Available Hint(s) formal charge on Cl = Submit Part B Calculate the formal charge on each of the oxygen (0) atoms labeled a, b, and c in the following Lewis structure. :0: Express your answers as integers separated by commas. • View Available Hint(s) formal charge on Oa, Ob, Oc = Submit prmal charges to predict the most stable structure he interactive activity shows how to calculate the formal charge of atoms in a structure. These formal charges can be used to predict the resonance structure that contributes most to the stability of a molecule or ion. The struc enerally the most stable. Part C What are the formal charges on the sulfur (S), carbon (C), and nitrogen (N) atoms, respectively, in the resonance structure that contributes most to the stability of the thiocyanate ion, SCN ? The possible resonance structures for the thiocyanate ion, SCN , are S=c=N 5-c=N]" [:s=c-N]" Structure A Structure B Structure C Express your answers as integers separated by commas. • View Available Hint(s) formal charge on sulfur (S), carbon (C) and nitrogen (N ) atoms =

Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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The Lewis structure for the chlorate ion is
:0:
Calculate the formal charge on the chlorine (Cl ) atom.
Express your answer as an integer.
• View Available Hint(s)
formal charge on Cl =
Submit
Part B
Calculate the formal charge on each of the oxygen (O) atoms labeled a, b, and c in the following Lewis structure.
:0:
Express your answers as integers separated by commas.
• View Available Hint(s)
formal charge on Oa , Ob , Oc =
Submit
ormal charges to predict the most stable structure
he interactive activity shows how to calculate the formal charge of atoms in a structure. These formal charges can be used to predict the resonance structure that contributes most to the stability of a molecule or ion. The struc
enerally the most stable.
Part C
What are the formal charges on the sulfur (S), carbon (C ), and nitrogen (N ) atoms, respectively, in the resonance structure that contributes most to the stability of the thiocyanate ion, SCN¯ ?
The possible resonance structures for the thiocyanate ion, SCN¯ , are
ES-c=N] [:s=c-NI
Structure A
Structure B
Structure C
Express your answers as integers separated by commas.
, View Available Hint(s)
formal charge on sulfur (S), carbon (C) and nitrogen (N ) atoms =
Transcribed Image Text:The Lewis structure for the chlorate ion is :0: Calculate the formal charge on the chlorine (Cl ) atom. Express your answer as an integer. • View Available Hint(s) formal charge on Cl = Submit Part B Calculate the formal charge on each of the oxygen (O) atoms labeled a, b, and c in the following Lewis structure. :0: Express your answers as integers separated by commas. • View Available Hint(s) formal charge on Oa , Ob , Oc = Submit ormal charges to predict the most stable structure he interactive activity shows how to calculate the formal charge of atoms in a structure. These formal charges can be used to predict the resonance structure that contributes most to the stability of a molecule or ion. The struc enerally the most stable. Part C What are the formal charges on the sulfur (S), carbon (C ), and nitrogen (N ) atoms, respectively, in the resonance structure that contributes most to the stability of the thiocyanate ion, SCN¯ ? The possible resonance structures for the thiocyanate ion, SCN¯ , are ES-c=N] [:s=c-NI Structure A Structure B Structure C Express your answers as integers separated by commas. , View Available Hint(s) formal charge on sulfur (S), carbon (C) and nitrogen (N ) atoms =
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