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12. (7 pts.) Draw three additional resonance forms for the structure shown below. Of the four...
12. Draw the important resonance forms for the structure shown below. NH2 CH3- N-C NH2
12. Draw the important resonance forms for the structure shown below. NH2 CH3- N-C NH2
4. Resonance: (10 pts) Sketch the additional resonance forms of the given structure. Include charges, resonance...
4. Resonance: (10 pts) Sketch the additional resonance forms of the given structure. Include charges, resonance arrows, and electron movement arrows. Circle the major resonance structure. If all structures are equivalent write 'same'. H. ΘΗ 4
Draw a resonance structure for each molecule below. All electrons are shown, but formal charges are...
Draw a resonance structure for each molecule below. All
electrons are shown, but formal charges are not.
5. (10 points) Draw a resonance structure for each molecule below. All electrons are shown, but formal charges are not. . 34" 9+ 20+ 5 (CH3)2 C-N = C- CH3 : 0-N = C- CH3
1. Draw all the significant resonance forms for the following structures, and indicate which are major...
1. Draw all the significant resonance forms for the following structures, and indicate which are major and which are minor, or if you have two equally important forms, say so. The number of new forms you need to draw is shown in parentheses below the arrow. (a) N co 4. In each of the following reactions, indicate which structure is the nucleophile and which is the electrophile. Also draw the products (use the electron pair arrows to guide you). (a)...
Answer each of the following questions. 1. Complete the Lewis structures for the following resonance forms...
Answer each of the following questions. 1. Complete the Lewis structures for the following resonance forms of C HsNO. Be sure to include formal charges. Circle the resonance structure that is the most important contributor to the resonance hybrid. Explain your choice. H3C- C-NH2 HC-C=NH2 2. Use VSEPR theory to predict value for the indicated bond angles in the form of the amino acid alanine shown below. Indicate the hybridization of the nitrogen and each of the carbon atoms. :0:...
Draw a second resonance from for the structure shown below. Draw a second resonance form for...
Draw a second resonance from for the structure shown below.
Draw a second resonance form for the structure shown below. CH3 I • Include all valence lone pairs in your answer. • In cases where there is more than one answer, just draw one. • Should you want to restart the exercise, the drop-down menu labeled == starting points == can be used to redraw the starting molecule on the sketcher. • In your structure, all second row elements should...
(6) 5. Draw three resonance structures for the enolate of Meldrum's acid (shown below) that forms...
(6) 5. Draw three resonance structures for the enolate of Meldrum's acid (shown below) that forms when one equivalent of NaOet is used. =1-H NaO
2. (a) Each molecule below has four additional significant resonance structures. Draw these additional structures, using...
2. (a) Each molecule below has four additional significant resonance structures. Draw these additional structures, using arrows to show electron movement. For each setof es structures, indicate which is more stable than the rest. 0) H N
3) Consider the following structure: a) (6 pts) Draw two additional resonance structures for the following...
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
Each molecule below has four additional significant resonance structures. Draw these additional structures, using arrows to...
Each molecule below has four additional significant resonance
structures. Draw these additional structures, using arrows to show
electron movement. For each set of resonance structures, indicate
which is more stable than the rest.
I think I just confusing myself trying to draw these structures
and any help is much appreciated!
(a) Each molecule below has four additional significant resonance structures. Draw these additional structures, using arrows to show electron movement. For each set of resonance structures, indicate which is more...
12. Draw the important resonance forms for the structure shown below. NH2 CH3- N-C NH2
4. Resonance: (10 pts) Sketch the additional resonance forms of the given structure. Include charges, resonance arrows, and electron movement arrows. Circle the major resonance structure. If all structures are equivalent write 'same'. H. ΘΗ 4
Draw a resonance structure for each molecule below. All
electrons are shown, but formal charges are not.
5. (10 points) Draw a resonance structure for each molecule below. All electrons are shown, but formal charges are not. . 34" 9+ 20+ 5 (CH3)2 C-N = C- CH3 : 0-N = C- CH3
1. Draw all the significant resonance forms for the following structures, and indicate which are major and which are minor, or if you have two equally important forms, say so. The number of new forms you need to draw is shown in parentheses below the arrow. (a) N co 4. In each of the following reactions, indicate which structure is the nucleophile and which is the electrophile. Also draw the products (use the electron pair arrows to guide you). (a)...
Answer each of the following questions. 1. Complete the Lewis structures for the following resonance forms of C HsNO. Be sure to include formal charges. Circle the resonance structure that is the most important contributor to the resonance hybrid. Explain your choice. H3C- C-NH2 HC-C=NH2 2. Use VSEPR theory to predict value for the indicated bond angles in the form of the amino acid alanine shown below. Indicate the hybridization of the nitrogen and each of the carbon atoms. :0:...
Draw a second resonance from for the structure shown below.
Draw a second resonance form for the structure shown below. CH3 I • Include all valence lone pairs in your answer. • In cases where there is more than one answer, just draw one. • Should you want to restart the exercise, the drop-down menu labeled == starting points == can be used to redraw the starting molecule on the sketcher. • In your structure, all second row elements should...
(6) 5. Draw three resonance structures for the enolate of Meldrum's acid (shown below) that forms when one equivalent of NaOet is used. =1-H NaO
2. (a) Each molecule below has four additional significant resonance structures. Draw these additional structures, using arrows to show electron movement. For each setof es structures, indicate which is more stable than the rest. 0) H N
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
Each molecule below has four additional significant resonance
structures. Draw these additional structures, using arrows to show
electron movement. For each set of resonance structures, indicate
which is more stable than the rest.
I think I just confusing myself trying to draw these structures
and any help is much appreciated!
(a) Each molecule below has four additional significant resonance structures. Draw these additional structures, using arrows to show electron movement. For each set of resonance structures, indicate which is more...
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