DRAW THE RESONANCE STRUCTURES FOR THE FOLLOWING AND HIGHLIGHT THE MAJOR CONTRIBUTOR.
Below is my work for the first two. I'm unsure of the major contributor for all.
-For the first one, I'm unsure if my final resonance structure is correct due to the double bonds in the benzene ring not being in the same position?
-The second one, would there be a negative charge on the Oxygen starting with the first oxygen and then a positive charge where the electrons are for each resonance?
-The third and fourth one, I am unsure of how to go about these
DRAW THE RESONANCE STRUCTURES FOR THE FOLLOWING AND HIGHLIGHT THE MAJOR CONTRIBUTOR. Below is my work...
Draw all resonance structures for this molecule and determine the major and minor resonance contributor. Where do you start when there are two groups attached to a benzene ring? :0 CH3
structures _______ , shown below, are resonance structures, and structure __________ is the major contributor to the overall resonance hybrid
5. Draw the number of resonance structures indicated, your structures must fulfill the octet rule. This exercise serves to develop a sense of which Lewis Structures are reasonable so think whether what you are proposing makes sense. Assign formal charges and determine which structure is more likely, major contributor. Draw a box around this structure. Note: it is possible to have more than one major contributor. In that case, indicate these equivalent structures by drawing a box around all of...
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, hybridization, Lewis structures: Draw the most important resonance contributor of the 1-methylcyclohexene ion © 3 0f 15 3 of 15 Part A Draw the most important resonance contributor of the following structure. Interactive 3D display mode CH; Draw the structure on the canvas by choosing buttons from the Tools (for bonds), Atoms, and Advanced Template toolbars. The single bond is active by default.
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.
Question 4 (1 point) Draw the Lewis dot structures for both resonance structures of the OCBrion and then select the statement that is true. The molecule sometimes looks like one resonance structure, and at other times it looks like the other resonance structure. In one resonance structure, the carbon is in the center, and in the other one, the oxygen is in the center. The bond between carbon and oxygen would best be described as 2.5 bonds (halfway between a...
Four resonance structures of the following cation are possible. Two resonance forms are given below, but they are incomplete. Complete the given structures by adding nonbonding electrons and formal charges. Draw the two remaining resonance structures (in any order), including nonbonding electrons and formal charges HaC Ha H3 Which structure is the most stable (lowest energy) resonance contributor?
Three major contributing resonance structures are possible for the following cation. One is given below. Draw the remaining structures (in any order), including nonbonding electrons and formal charges Three major contributing resonance structures are possible for the following cation. One is given below. Draw the remaining structures (in any order), including nonbonding electrons and formal charges.