Draw curved anows to show the relationship between each set of resonance structures 2. Deaw all...
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)...
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.
2. Draw electron-dot formulas for all the contributors to the resonance hybrid structures of the carbonate ion, Co2 What is the charge on each atom in each contributor? Using curved arrows, show how the electron pairs move to interconvert the three structures.
1. For the following molecule, draw all possible reasonable resonance structures and then draw the corresponding resonance hybrid. Points will be deducted for invalid resonance structures (5 points) HO
4. Consider the molecule BF3. Two possible resonance structures are shown below. :: a) Use curved arrows to show electron movement. b) Assign formal charges to each resonance contributor. c) Are both structures equally contributing to the resonance hybrid? Which is the better structure and why?
2. (Resonance and hybridization) Show all of the possible resonance structure with proper curved arrows in Lewis structure. Then, indicate the hybridization of each atom (shown with alphabets) and types of bonds for the major contributor.(5 pts) NaN CHCNF
(2) Determine the relationship between the two structures shown below. (a)Are they resonance structures or are they constitutional isomers of each other? (b) what is the hybridization and geometry of the arrow-pointed atoms in the first structure (A) and show the direction of the molecular dipole. NO₂ a (A)
Two major resonance structures are possible for the following anion. One resonance form is given below, but it is incomplete. Complete the given structure by adding nonbonding electrons and formal charges. Draw the remaining structure, including nonbonding electrons and formal charges. Omit curved arrows. Which structure contributes most to the hybrid? Both contribute equally. The structure with the negative charge on nitrogen. The structure with the negative charge on carbon.
How major resonance structures are possible for the following anion. One resonance form is given below, out it is incomplete. Complete the given structure by adding nonbonding electrons and formal charges. Draw the remaining structure, including nonbonding electrons and formal charges. Omit curved arrows. Which structure contributes most to the hybrid? Both contribute equally. The structure with the negative charge on nitrogen. The structure with the negative charge on carbon.
For each of the following anions, draw all possible resonance contributors. Show the conversion between resonance contributors by including curved arrow formalism. 1. O2N Based on the resonance structures you drew in question 1, which compound (A or B) would you expect to be the more stable anion? Briefly explain your choice. 2. Looking at the compound you chose in part 2, which of its resonance contributors is the major contributor? Briefly explain. 3.