Consider the possible structures N₂O4 shown below. 10% 101 0 0 NO=N-OF I NHÔ-N-OA 0 4 -N=O: N=O=N-O 2 Structure 1 NÔ=N=Ở 05 N-0=N-0: 20: N-Ô=N- 10% N-O- O 20: Based on formal charges, how would you describe the bonding arrangement shown in following structures. (compared to the other structures shown). Structure 5 Would structure #7 be more likely or less likely than structure #6? How many of the resonance structures would you describe as "Very Likely"? Based on the relative likelihood of these possibilities, determine the average bond order for the internal N-O bond in the molecule (indicated by the arrow in the picture below. If your answer is a fraction, enter that fraction as the decimal equivalent in two-1222 ostal

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Consider the possible structures N₂O4 shown below. 0 N-O=N-O: 0 0 N=O-N=O 4 * N-0-N=0: Structure 5 Structure 1 10: 0 " N=O=N-O: Z N-O=N=O N-O-N-O 05 10: 1 N-O-N-O: "1 :0: :0: 11 N-O=N-O: 1 :0: N-O-N=O :0 Based on formal charges, how would you describe the bonding arrangement shown in the following structures. (compared to the other structures shown), 10: N-O-N=O १ Would structure #7 be more likely or less likely than structure #6? How many of the resonance structures would you describe as "Very Likely"? Based on the relative likelihood of these possibilities, determine the average bond order for the internal N-O bond in the molecule (indicated by the arrow in the picture below. If your answer is a fraction, enter that fraction as the decimal equivalent (i.e. 11/3 = 1.333, etc.) Average Bond Order =