What reaction will produce the following product?
A)
![](data:image/png;base64,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)
B)
![](data:image/png;base64,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)
C)
![](data:image/png;base64,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)
D)
![](data:image/png;base64,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)
E)
Question 2Which of the following compounds will
not act as a nucleophile in an Aldol reaction?
A)
![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAEUAAAAZCAMAAABQHxOXAAAAAXNSR0IArs4c6QAAAwBQTFRFAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA///M//+Z//9m//8z/8z//8zM/8yZ/8xm/8wz/8wA/5n//5nM/5mZ/5lm/5kz/5kA/2b//2bM/2aZ/2Zm/2Yz/2YA/zP//zPM/zOZ/zNm/zMz/zMA/wDM/wCZ/wBm/wAzzP//zP/MzP+ZzP9mzP8zzP8AzMz/zMyZzMxmzMwzzMwAzJn/zJnMzJmZzJlmzJkzzJkAzGb/zGbMzGaZzGZmzGYzzGYAzDP/zDPMzDOZzDNmzDMzzDMAzAD/zADMzACZzABmzAAzzAAAmf//mf/Mmf+Zmf9mmf8zmf8AmczMmcyZmcxmmcwzmcwAmZn/mZnMmZlmmZkzmWb/mWbMmWaZmWZmmWYzmWYAmTP/mTPMmTOZmTNmmTMzmTMAmQD/mQDMmQBmmQAzmQAAZv//Zv/MZv+ZZv9mgAAAAIAAZsz/ZszMZsyZZsxmZswzZswAZpn/ZpnMZpmZZplmZpkzZpkAZmb/ZmbMZmaZZmZmZmYzZmYAgIAAZjPMZjOZZjNmZjMzZjMAAACAZgDMZgCZZgBmZgAzZgAAM///gACAM/+ZM/9mM/8zAICAM8z/M8zMM8yZM8xmM8wzwMDAM5n/M5nMM5mZM5lmM5kzM5kAM2b/M2bMM2aZM2ZmM2YzM2YAMzP/MzPMMzOZMzNmMzMzMzMApMjwMwDMMwCZMwBmMwAzMwAA//vwoKCkAP9mAP8zAMz/AMzMgICAAMxmAMwzAMwAAJn/AJnMAJlmAJkzAJkAAGb/AGbMAGaZAGZmAGYzAGYAADP/ADPMADOZADNmADMzADMAAADMAACZAABmAAAz7gAA3QAAuwAAqgAAiAAAVQAARAAAIgAAAO4AAN0AALsAAKoAAIgAAFUAAEQAACIAABEAAADuAADdAAC7AACqAACIAABVAABEAAAiAAAR7u7u3d3dqqqqd3d3VVVVREREIiIiERERAAAAAAAAAAAA/wAAAP8A//8AAAD//wD/AP//////P4MPnAAAANNJREFUOE/tk8sRwzAIROlAfdiXnFJOKqNXBRZ9GIVY0oyP1iEfFt6g9ZryHYfugOSHEtv4+DLxhUkOi03yJa32iRMpqBHXltrLWjoNAM1BEkheYZJaTg1Tm1G22YESKaWW2nRZyj3xkdKtaMq/aU/BnVshUlYo5W7qoJgVbblBoZeYukk5dAPY5XzR/wRFeV2xWj7GnViFBO87heij83KtQUHNlDEWJUY+ddjAUqf4nkdL3Vkf3+SdXnzlr9tarHpmwl8XFN35PRn/zezawO4uG9QvWjj/xRIsGzwAAAAASUVORK5CYII=)
B)
![](data:image/png;base64,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)
C)
![](data:image/png;base64,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)
D)
HCHO
E)
C and D
Question 3An oxime can be produced by the reaction of an aldehyde and:
A)
hydroxylamine
B)
hydrazine
C)
methylamine
D)
phenylhydrazine
E)
semicarbazide