Use the formal charges to decide which resonance structure likely to contribute mostto the hybrid. Select ALL that apply.:N=N2-O::N=N=ö::N-N2=0:-IIIIIIStr. IN = 0N2 =+1O = -1Str. IN1 = -1N2 =+1O = 0Str. IIN = +1N2 = 0O = -1Structure I contributes mostStructure Il contributes mostStructure I and III contribute most

Use the formal charges to decide which resonance structure likely to contribute most to the hybrid. Select ALL that apply. :N=N2-0: :N=N;=ö: - N-N=0: II III Str. I N = 0 N2 =+1 O = -1 Str. I N1 = -1 N2 =+1 O = 0 Str. II N1 = +1 N2 = 0 O = -1 Structure I contributes most Structure II contributes most Structure I and III contribute most

Use the formal charges to decide which resonance structure likely to contribute most to the hybrid. Select ALL that apply. :N=N2-0: :N=N;=ö: - N-N=0: II III Str. I N = 0 N2 =+1 O = -1 Str. I N1 = -1 N2 =+1 O = 0 Str. II N1 = +1 N2 = 0 O = -1 Structure I contributes most Structure II contributes most Structure I and III contribute most

Chemistry: Matter and Change

1st Edition

ISBN:9780078746376

Author:Dinah Zike, Laurel Dingrando, Nicholas Hainen, Cheryl Wistrom

Publisher:Dinah Zike, Laurel Dingrando, Nicholas Hainen, Cheryl Wistrom

Chapter8: Covalent Bonding

Section8.5: Electronegativity And Polarity

Problem 68SSC

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Explain below ? The resonance hybrid is more stable than any resonance structurebecause it delocalizes electron density over a larger volume.
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