Does Ch2Br2 have any resonance structures? If it does, draw them.
Does CH3CN have resonance structures? Explain why or why not? If there are resonance structures, please draw them.
1. Please draw all resonance structures (if there are any, not all structures may have resonance structures) for the carbocations A-E (make sure you use resonance arrows (<->). Then circle the carbons that can react with a nucleophile in a SN1-type reaction.
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
draw resonance structures for the conjugate base of 2,6dichloroibdophenol and use them to explain the differences in the pka values a value of 5.9 and is 10.000 times more 2,6-dichloroindophenol (see in Part III) has a pka value of 5.9 and is 10000 acidic than phenol (pKa =10). Draw resonance structures for the conjugate base of 26 dichloroindophenol and use them to explain the differences in the pKa values.
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
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.
Draw Lewis Structures for the following molecules. Include any resonance structures and formal charges. Indicate the most probable structure. ClF3 CN(-)
Do the following have resonance structures? How do you draw them if so? 1. C2H2 2. SO2 3. SO42- 4. CO2 5. SCN- 6. NO3- 7. HNO3 8. C2H4Cl2 9. PF6- 10. AsF5 11. CO32- 12. BF3 13. XeF4
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...