Identify the correct statement for the given reactions given.
a.
Reaction A is an allylic halogenation reaction, and reaction B is an electrophilic addition reaction.
b.
Reaction A is an electrophilic addition reaction, and reaction B is an allylic substitution reaction.
c.
Reactions A and B are allylic substitution reactions.
d.
Reaction A is a displacement reaction, and reaction B is an allylic halogenation reaction.
Question 2Identify the step of the given free radical reaction mechanism.
a.
Chain propagation
b.
Chain termination
c.
Chain initiation
d.
Chain extension
Question 3What is the major product in the following reaction?
a.
Only I
b.
Only II
c.
Only III
d.
I, II, and III in equal amounts
Question 4What is the IUPAC name of the following compound?
a.
1,3-dichloro-3-methylhexane
b.
3-methyl-1,3-dichlorohexane
c.
2-chloro-2-(1-chloroethyl)-hexane
d.
2,4-dichloro-2-(n-propyl)butane
Question 5What is the structure of the key intermediate in the following reaction?
Question 6Provide neatly drawn resonance structures of the key intermediate in the following reaction.
![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAcMAAACECAMAAADbcrCMAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAMAUExURQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAP//zP//mf//Zv//M//M///MzP/Mmf/MZv/MM//MAP+Z//+ZzP+Zmf+ZZv+ZM/+ZAP9m//9mzP9mmf9mZv9mM/9mAP8z//8zzP8zmf8zZv8zM/8zAP8AzP8Amf8AZv8AM8z//8z/zMz/mcz/Zsz/M8z/AMzM/8zMmczMZszMM8zMAMyZ/8yZzMyZmcyZZsyZM8yZAMxm/8xmzMxmmcxmZsxmM8xmAMwz/8wzzMwzmcwzZswzM8wzAMwA/8wAzMwAmcwAZswAM8wAAJn//5n/zJn/mZn/Zpn/M5n/AJnMzJnMmZnMZpnMM5nMAJmZ/5mZzJmZZpmZM5lm/5lmzJlmmZlmZplmM5lmAJkz/5kzzJkzmZkzZpkzM5kzAJkA/5kAzJkAZpkAM5kAAGb//2b/zGb/mWb/ZoAAAACAAGbM/2bMzGbMmWbMZmbMM2bMAGaZ/2aZzGaZmWaZZmaZM2aZAGZm/2ZmzGZmmWZmZmZmM2ZmAICAAGYzzGYzmWYzZmYzM2YzAAAAgGYAzGYAmWYAZmYAM2YAADP//4AAgDP/mTP/ZjP/MwCAgDPM/zPMzDPMmTPMZjPMM8DAwDOZ/zOZzDOZmTOZZjOZMzOZADNm/zNmzDNmmTNmZjNmMzNmADMz/zMzzDMzmTMzZjMzMzMzAKTI8DMAzDMAmTMAZjMAMzMAAP/78KCgpAD/ZgD/MwDM/wDMzICAgADMZgDMMwDMAACZ/wCZzACZZgCZMwCZAABm/wBmzABmmQBmZgBmMwBmAAAz/wAzzAAzmQAzZgAzMwAzAAAAzAAAmQAAZgAAM+4AAN0AALsAAKoAAIgAAFUAAEQAACIAAADuAADdAAC7AACqAACIAABVAABEAAAiAAARAAAA7gAA3QAAuwAAqgAAiAAAVQAARAAAIgAAEe7u7t3d3aqqqnd3d1VVVURERCIiIhEREQAAAAAAAAAAAP8AAAD/AP//AAAA//8A/wD//////z+DD5wAAAAJcEhZcwAADsMAAA7DAcdvqGQAAAauSURBVHhe7Z2Lbtw6DETz/z/dkpZsr209qLFIUbs6SLKJzRnNmO3iAilw//4tZmftcH5uO6ytdPqVOyjYPcJdUDEwqKiLh369M9wFZQOTiro4KNg7wkNRsjBpqEyxg1HBzhkeipKFUUVdPBQsnANEeEryJlYNlXFQsHAQkOEpcVBRl2wNw35dMyQ0ORvDiro4KNg1QkqUMTKsqIuHfj0zpERpI9OKungomDwNiyC2sm2ojIOC4gdfR2xlXFEXDwUT54ER0rLnVeuGyjgomDgQzJCRPS6bV9TFQ79uGTK6++UBFXVxULBbhJzwdn1ARV089OuVISe8Xh9SURcPBS+n4hGyys8bYxoq46Dg5Vg8Q1bpoKIuH6WG9euTIS897wyrqIuDgh8Hv8hQkB63hlXUxUO/LhkK2v3WwIq6OCjYJUJJHO4NbKhMbDa0YI8MJXG4N7SiLh4Kbqe/i1BU882xDZVxUHA7/l2Gotqg4t9G/MEcOnjY2TtYhs+nVpb/qVcM/tqnZNEvWAWLwJpdV9Gr/xUJ/tqnZBn3FnACZWANfW7asl7/bS74c5pKFB0Gvo8fYDsMb6abtKjnm8oltywG5yQJB4fvR7Ftoj1DTL4JC+rduTDynmBOX/mbsE0z4mG2h145nnFrBp6nz02W1X64apYM1vQ1fOTzdMeoYJGPc1si0Oz+7hV/THK9rlcyGNPXeILaQTdujayOvXDNIH7Gj8G08OknPaCV4Etfj28sSPQzOvkEzfAcSsmSXkol+T1hs97sdc54kDxGqWCG9Gn1CCnd81K2i35J9QM2BhY8ACOkbz8ulkyUS+5/JVUpnqB+eqCUoXgvvt64Xa49w8pt/9T6GRSsPuPM/azucl3QwKKkHg4KSvxTIwXdxx1h+t4lO9sVGFTwAhihmOm8J0/et2RXswINqdUiyTNcJ8uy/W7bXpqGK/T0KtDWTyVU4zM+pmu6cLs5c7+Sfx298gwsuNPuGAR1HQ9AeXuVZB/+CC86YAXjayegCLI/4DSChu1Tkl3iZx/DJ6AvtPkcaIb4WoSG0Kh9KrJL/Oxj+AT17ZkH9BLJaAixZw0Y68phxO8b/KoA4nvk6gToJZLREGLPGjDWldOo61vXBcT4zNUH0EskoyHEnjVgrCunURe7JIjzmasPoJdIRkOIPWvAWPZ4KAh6iWQ0hNizBoxlj4eCoJdIRkOIPWvAWPZ4KAh6iWQ0hNizBoxlj4eCoJdIRkOIPWvAWPboF6xPgg9LJKMhxJ41YCx79AvWJ8GHJZLREGLPGjAWyIt/pqFfsD4JhhfJaAixZw0YC2T7xzbYHpULipJBwYUyGkLsWVPSxV46xDPEaBS8Up9EMhAiGQ0h9qwp6eLT1iGeIUaj4JX6JJKBEMloCLFnDRgLBNwfo1+wPgkFF8poCLFnDRgLBNwf46Eg6CWS0RBizxowlj0eCoJeIhkNIfasAWPZ46Eg6CWS0RBizxowlj0eCoJeIhkNIfasAWPZ46Eg6CWS0RBizxowlj0eCoJeIhkNIfasAWPZ46Eg6CWS0RBizxowlj0eCoJeIhkNIfasAWPZ46Eg6CWS0RBizxowlj0eCoJeIhkNIfasAWPZ46Eg6CWS0RBizxowlj0eCoJeIhkNIfasAWPZ46Eg6CWS0RBizxowlj0eCoJeIhkNIfasAWPZgwbtWRDwEj9jGkKjojpzPBRs9gq/ahPJaAj8xRz++zxrwKBdCzZ67WeLZNsQkhaQDAPq17lgi9+xQZlmnw4vYno31KY5r0I/cYY41zrfVnK2DTIeCopc97PlEc5JeW65uyvk/dQK1p2PDTZk+ByVyfQaaiNLrtuv7L7fbctwGRZIdRtqIykYX9UoHBBvtT7j23hFPvcGGQcFc2fs15sjPASlFs3uHin1MyqYOufYYHuGlFt8vWPVUJtsD8N+jwzxZ+gZpzRJo2/ZIOOh4OW0eDYYIa16mBkXVMdBwfPE/Ts0Qk537YS6O+bab0jB2zOGM+SF550xDbX5aDWs35nhzTMuSKPtd26Q8VAwnv0qQlFM7b53gwyVG12Qz3+ZoaIeXFAdD39EX2f49iXV+Ib+a4fzs3Y4P2uH87N2OD9rh/Ozdjg/a4fzs3Y4P2uH87N2OD9rh/Ozdjg/a4fzs3Y4P2uH87N2OD9rh/Ozdjg/a4fzs3Y4P2uH87N2OD9rh/Ozdjg/a4fz8+s7/AbWDufnp3eI/o/cnPHbO4yfk7N2SB+TP4Tf3mF4M539Gfz2DsPn2uHErB3OT/zv0rXDxWjWDmfn37//4TkWYYxT1I8AAAAASUVORK5CYII=)
Question 7What is the major organic product obtained from the following reaction?
![](data:image/png;base64,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)
Question 8What is the major organic product obtained from the following reaction?
![](data:image/png;base64,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)
Question 9What is the major organic product obtained from the following reaction?
![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAANIAAABDCAMAAADefauWAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAMAUExURQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAP//zP//mf//Zv//M//M///MzP/Mmf/MZv/MM//MAP+Z//+ZzP+Zmf+ZZv+ZM/+ZAP9m//9mzP9mmf9mZv9mM/9mAP8z//8zzP8zmf8zZv8zM/8zAP8AzP8Amf8AZv8AM8z//8z/zMz/mcz/Zsz/M8z/AMzM/8zMmczMZszMM8zMAMyZ/8yZzMyZmcyZZsyZM8yZAMxm/8xmzMxmmcxmZsxmM8xmAMwz/8wzzMwzmcwzZswzM8wzAMwA/8wAzMwAmcwAZswAM8wAAJn//5n/zJn/mZn/Zpn/M5n/AJnMzJnMmZnMZpnMM5nMAJmZ/5mZzJmZZpmZM5lm/5lmzJlmmZlmZplmM5lmAJkz/5kzzJkzmZkzZpkzM5kzAJkA/5kAzJkAZpkAM5kAAGb//2b/zGb/mWb/ZoAAAACAAGbM/2bMzGbMmWbMZmbMM2bMAGaZ/2aZzGaZmWaZZmaZM2aZAGZm/2ZmzGZmmWZmZmZmM2ZmAICAAGYzzGYzmWYzZmYzM2YzAAAAgGYAzGYAmWYAZmYAM2YAADP//4AAgDP/mTP/ZjP/MwCAgDPM/zPMzDPMmTPMZjPMM8DAwDOZ/zOZzDOZmTOZZjOZMzOZADNm/zNmzDNmmTNmZjNmMzNmADMz/zMzzDMzmTMzZjMzMzMzAKTI8DMAzDMAmTMAZjMAMzMAAP/78KCgpAD/ZgD/MwDM/wDMzICAgADMZgDMMwDMAACZ/wCZzACZZgCZMwCZAABm/wBmzABmmQBmZgBmMwBmAAAz/wAzzAAzmQAzZgAzMwAzAAAAzAAAmQAAZgAAM+4AAN0AALsAAKoAAIgAAFUAAEQAACIAAADuAADdAAC7AACqAACIAABVAABEAAAiAAARAAAA7gAA3QAAuwAAqgAAiAAAVQAARAAAIgAAEe7u7t3d3aqqqnd3d1VVVURERCIiIhEREQAAAAAAAAAAAP8AAAD/AP//AAAA//8A/wD//////z+DD5wAAAAJcEhZcwAADsMAAA7DAcdvqGQAAAFjSURBVGhD7ZaBroMgDEX9/592KG2HikCbEG5NT/IE3ySeMzazbf8ccEnbCZ2YwEsqjjYiaT6StFnd8JL4u2T+QuEl8dFsBp5kefhhJ/GfCvWC2WShdGSzDyTJ44HO86AALumGwQ88yaKHncQfQhXgu2Thq0nm3x6QUIwpCvSNEC21X3oXcJrKx0ia0Iluo/LVujUTOR+NiXMuB5WgXDm8hu45H3JjsUHBy2XDUVOhnsOFfSQqDy0eDQNrZiM9xzwPCf5HR7D2em/NfEqDckrzpuDLa+uj/lxUulENc5yom4hE5eFKxxql6eHBTU/BrjLIRlXM61FDvhBRNYdK1LArQFNdQaJoUIhqrp3Dm0AZo5RcHfV6e9kog+HaqMbN8w7Z7FY2Ne+dela6Gekor/0I2egpRxICkeSBSPJAJHkgkjwQSR6IJA9EkgciyQOR5IFI8kAkeSCSPBBJHogkDzhUbrPvP1pSdXSyvoMfAAAAAElFTkSuQmCC)
Question 10What is the major organic product obtained from the following reaction?
![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAANMAAABGCAYAAABWrKEpAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAAJcEhZcwAADsMAAA7DAcdvqGQAAAfXSURBVHhe7Z3Xa1RNGIdF8EZvvPF/UO9EBduFIDZUEBFFL+y9d8WCDXtv2MUaO1asUbH3jqLRaOxi7zXm/fKM5/BtkvUznzsm2d3fA4PZczYJi/Ocd+addybFsrKyDmW3dDU1tZhaGjI9NiFEzCBTevC1EOIPyfYoUzKJPya779iiRYvs5MmTwRWzDx8+2LRp0+zJkyeuDRgwwLp06WJdu3Z1/x46dCh4Z2IhmURM/Pjxw1q3bm3r168Prpi9ffvWGjZsaGlpaXbu3DmrWrWq7dixwy5duuTEq127tp0/f969NzMz0z59+mQfP350r+MZySRiApl69Ohhmzdvdq+JVC9evLBmzZpZenq6nT171ho1amQPHz509zMyMqxx48Z24sQJe/r0qfXp08e1LVu2uPvxjGQSMYE8nTt3tvr169uYMWNs2LBh1q9fP6tSpYoT6PLly1a5cmVr06aNDRw40Bo0aODkgf3791vZsmVt3rx5dvPmTXctnpFMIiaQqVOnTk6Qbdu22datWy0lJcXq1Klj9+7ds4sXL1qNGjVs5syZtmbNGps/f761atXKzpw5Y0eOHLH27dsHPyn+kUwiJhjmde/e3fbs2RNc+TkPatmypd2+fdsN8xjWkZQIGTp0qE2YMMElIiSTEAHIxBBu3bp1wRWzV69euQTErVu3nEwVK1a01atX2+HDh9376tWr54Z4yNS8efPgu+IfySRiIrvv2NKlS3OkxsnOMawjLc68iQRFt27drGfPntauXTtbsWKFffv2za5fv25z584Nviv+kUzCC0SoSHiNaMCw78uXL06y3HAvUZBMQnhCMgnhCckkhCckkxCeiCoTmRYmjEKI/BNVpvv379v48eNd/ZQQyUi2E8FX+SeqTPygDRs2uDKRSZMmuYLFRIEqZgoshfgvbty44fo+pVEEl/wQVaYQVrLnzJnjChmXLFlinz9/Du7EH8+ePXN7bKhm7tixo+3atSu4I0ReHjx4YOXLl7dixYpZtWrV3MIztYUvX74M3pGXHDKxYn3w4EF7/vy5uxly9epVGzVqlJOKEpCvX78Gd4o+79+/d3ttKHmhOplV92PHjrnK5kGDBrknkBDRoH4QmcJWqlQpq1SpkjVt2tSVR+EJ+YWQHDKxQj158mS3G3Lv3r05khAIxByKspCRI0falStXgjtFk+zPZEePHnUlLBRWIlEk7969s40bN1rbtm1d9KXCuSjCRjs+x759+9QKuA0ZMsRKlCiRQ6iwlSxZ0sqUKWO1atWyZcuWuYd2DplC+M8jrA0fPtyOHz8eXP3J9+/fbdWqVa7al/qrcNNXUYJIivA8FHbv3h1cjQ5Pl4kTJ7qHxMqVK4tcFvPOnTvWu3dva9GihVoBNqreq1evbsWLF48qEw3RKlSo4PoOw8KoMgE1U0y+kIpolXvSjkRTp05184+1a9fmqc0qDHg6zJgxw0nEHC+y7P93sL+GjW1EsgMHDgRXRTIzduzYPAKVK1fO9a9Zs2bZzp077fHjfw/2+qVMIUjDMCgss8/dQcmOEcHY03Lq1CkXuQoaEiNsSuvQoYNNnz49pnkQw1s+C5GNqCCSE7aPEHVKly7t9mOxqZERG9cj50mR/FamEDro4MGDXUgjCREpDXMt9qeQoGDrckFO6k+fPu22Q/ft29eJ7QOymMuXL3cPkMWLF9ujR4+COyJZoA+wF4tgkt/DXvItUwjZPqQhu3fhwoXg6k+QitNnWJ9asGDBf6YRY4WTb1gH4HdxGEf2Zwju+AOJCPUMdYl8ibRdQPjnf8sEhDme3EjF2PH169fBnZ+wyDt69Gh3TtqmTZuCq34IhWXcOnv2bHvz5k1w5+9BEqZ///7unAPmVkJE449kCmH8yEIomT2Oesq9qMt6DkNDOiFRLJbogcCpqaku4UG0KOjUPBJzYAgPEB4UGvqJ3MQkEyAIhwsiDSlckhCRkGGjE4bJgbt37wZ38g/ikGnr1auX+/m/mgAWBGQ1yRQyn2JFPPcCt0heYpYphNQ4azoMv8aNG5cnCcHiI+tSPNkZIuZneMaBhQwjEZGOW5TWgIjKLAYj+O/WskRy4E2mECShbIf5Ein13JmQa9eu2YgRI9x6zq86IdGOtSvEmzJlSpEuTCWVTiaR1XIWi0Xy4l2mEDoW2Taiyvbt2/MMzcgK8lSnE3K+GhDdOOUGiVi7IjUZDzCUDeVngftvZjFF0eWvyQREGOY4PLkpKmVuFQmdjpQzQ0NKeki3E9GoQGDCH29QUkIFBvV+1P1R/yeSh78qUwgLvGT7yPqRhGCNKISsGE/zunXruuFhPG/zCGEoy59RYTE58jw5kdgUiEwhRCKSEFRRUFnAsC7cY5SIqWa2flAUTIQWiU+ByhRCqpu1GtLpTZo0yXG0biIimZKDQpEJGPqxP6pmzZoJdUSuSF4KTaYQqhkWLlwYvBIifil0mTgFiVo7IeKdQpeJagnJJBIBySSEJySTEJ6QTEJ4QjIJ4QnJJIQnJJMQnpBMQnhCMgnhCckkhCckkxCekExCeEIyCeEJySSEJySTEJ6QTEJ4QjIJ4QnJJIQnJJMQnpBMQnhCMgnhCckkhCckkxCekExCeEIyCeEJySSEJwpdJv4kJ3+XSYh4p9BlSklJsdTU1OCVEPFLKFNG8FoIEQPIlIZVampqsbSsr/8Ad6k9BKepBKYAAAAASUVORK5CYII=)
Question 11What is the structure of all of the monobrominated products, including regioismers and stereoisomers, obtained from the following reaction?
![](data:image/png;base64,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)
Question 12What is the structure of all of the monobrominated products, including regioismers and stereoisomers, obtained from the following reaction?
![](data:image/png;base64,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)