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...
3) Consider the following structure: a) (6 pts) Draw two additional resonance structures for the following compound. Show curved arrows to convert between the resonance structures. (You need to redraw the molecule below) b) (4 pts) Circle the major contributor above. Explain your choice 4) (5 pts) For the following compound draw in the lone pairs, indicate if each lone pair is localized or delocalized and identify what type of orbital each lone pair is in
structures _______ , shown below, are resonance structures, and structure __________ is the major contributor to the overall resonance hybrid
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
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...
There are two resonance contributors for the molecule. Draw the major resonance contributor of the following ion: There are two resonance contributors for the molecule. Draw the major resonance contributor of the following ion:
Draw a resonance stabilized conjugate base derived from nepetalactone, circle the major resonance contributor or write equal if they're equal, also lable the most acidic hydrogen of the molecule.
3. PRACTICE WITH A TON OF RESONANCE CONTRIBUTOR EXAMPLES! Draw the resonance contributors for the species/molecules shown in the boxes below. Then, indicate which species (if any) is the MAJOR contributor towards the resonance hybrid (most stable). a. V c. D ochz
3. PRACTICE WITH A TON OF RESONANCE CONTRIBUTOR EXAMPLES! Draw the resonance contributors for the speciesmolecules shown in the boxes below. Then, indicate which species if any) is the MAJOR contributor towards the resonance hybrid (most stable) a. OCH3 C. d HO f. CI 1 1 1 O:
Draw curved anows to show the relationship between each set of resonance structures 2. Deaw all major resonance structures of each mclecule below by complecing as many of che even σ frameworks as necessary НН 3. Identify the hybridization af each oxygen and nitrogen atem in the melecules below Draw all major resonance structures for each molecule below For each,identily the biggest contributorls) to the resonance hybrid NH
1. Identify all the functional groups in the following drug molecule. I Ĥ H 2. Draw all resonance structures for the following molecule and show electron movement using arrows. Pick the structure which is a major contributor to the resonance hybrid. 3. Draw curved arrows in the following reaction to show formation of product. ::