1. For the following molecule, draw all possible reasonable resonance structures and then draw the corresponding...
Resonance Structures. Draw one reasonable
resonance structure for each of the following.
Resonance Structures. Draw one reasonable resonance structure for each of the following. More Resonance, Structures, Draw all reasonable resonance structure for the following. Circle the r.s. that contributes more to the hybrid. If two or more contribute equally, circle all.
#3 and 4 please
3. Draw 2 reasonable resonance structures for a molecule with the following skeletal structure (count electrons) H H C C-N-O Draw 2 reasonable resonance structures for a molecule with the following skeletal structure (count electrons) 4. H C N C O H- H -I
Draw all reasonable resonance structures of the following.
1. Draw all resonance structures for the following compound.
Circle the major contributor (to the resonance hybrid) and give a
brief explanation for your choice. (4 pts) 2. Determine the
configuration (show priorities and work) for any chiral centers in
the molecule below. (2 pts)
2. Determine the configuration (show priorities and work) for
any chiral centers in the molecule below. (2 pts)
1. Draw all resonance structures for the following compound. Circle the major contributor (to the resonance hybrid)...
Question 5 a) Draw all the reasonable resonance structures for N20 with the atoms bonded in the order N-N-O. Label all the non-zero formal charges on the atoms in your structures. Note do not show your formal charge calculations, just label the non-zero values in your structures. (3 marks) b) Decide which structure(s) contribute the most to the resonance hybrid. Clearly explain your reasoning (1 mark)
1. There are three possible resonance structures of phenoxide; draw them and show electron pushing arrows. Then draw the overall resonance hybrid. (1 point) Hybrid 2. There are three possible resonance structures of phenyl ethanoate, draw them and show electron pushing arrows. Then draw the overall resonance hybrid. (1 point) Hybrid 3. There are three possible resonance structures of methyl benzoate; draw them and show electron pushing arrows. Then draw the overall resonance hybrid. (1 point) Hybrid
Nitromethane structures:
Consider nitromethane (CH3NO2). Three reasonable lewis structures (resonance structures) can be drawn for this molecule. a. Draw each of the three most reasonable Lewis structures (two of them look almost identical to each other). b. Calculate the formal charges on C, N and O in each of your Lewis structures. c. Give the hybridization on each atom in each resonance structure. d. Will the geometry of the molecule change depending on which resonance structure is the dominant contributor...
2.) Draw correct Lewis dot structures for each of the following molecules. Draw all reasonable resonance structures. Expand the octet of the central atom (if possible) in order to minimize formal charges. Calculate formal charges on each atom. 12 pt.) a. CIO, b. NO, C. SO,
1. There are four resonance structures for the N2O4 molecule. (1) Draw all the resonance structures using the skeletal structure shown below; (2) Calculate the formal charges of each atom in the molecule; (3) What is the average N-O bond order? (Please refer to example 8.10 in your book for guidance.)
Draw complete Lewis (electron-dot) structures and calculate the formal charges for all the atoms in the species listed below. If more than one reasonable resonance structure is possible, draw them all, with the corresponding formal charges, and indicate which structure represents the best or would contribute the most to the hybrid resonance structure of the given molecule/ion. a) AlCle b) N20 c) Dithionite anion, S202 d) Methyl azide, CH3-N3