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AICI: 3. (15 points each) Predict the products and present a detailed mechanism for the following...
AICI 3. (15 points each) Predict the products and present a detailed mechanism for the following reactions. If an intermediate is stabilized by resonance, draw all resonance structures. Show all lone pair electrons and label any charged atoms.
3. (15 points each) Predict the products and present a detailed mechanism for the following reactions. If an intermediate is stabilized by resonance, draw all resonance structures. Show all lone pair electrons and label any charged atoms. Cl2, FeCl;
1) Consider the acid-base reaction below. A) Predict the products and show the arrow.pushing mechanism and all of the resonance structures for any resonance-stabilized products. B) Estimate K for this reaction. + Na o
1) Predict the Products: Using line drawings with proper use of
dashed wedge and solid wedge notation where necessary, draw the
major organic products of the following reactions in the boxes
provided. If no reaction occurs write “no reaction” or “N.R.” in
the box. Include stereochemistry in your answers where appropriate.
If a product is racemic draw both enantiomers or write “racemic”
next to the structure. Assume all reagents written above and below
the arrows are present in excess unless...
6. Predict the product and draw a mechanism for the reactions below. You MUST include the mechanism for the formation of the electrophile. Be sure to show arrows for every bond change and draw the resonance structures of the carbocation intermediate. AICI: SO3 H2SO4
6. Propose a mechanism and predict the product for the following reaction. Be sure to include resonance structures. (10 points) OCH AICI, 10 7. Provide the products for the following reactions (12 points) Bra. fuming FeBry H2SO4 AICI
2. (12 points, 6 points each) Give the arrow pushing mechanism for To of the following reactions. Draw the resonance structures of the intermediate. You MUST include the mechanism for the formation of the electrophile for electrophilic substitution reactions. Do not combine steps and be sure to show arrows and charges for all steps. Gie Twoyo.coc.c.m.m.ci.e groded..ay are wotcleurly marked hwiti only gade wor A. HNO, H,So B. 1. AICI 2. H2o C. OzN NO2 NaOCH2CH 02N. heat N/A D....
Question 3. Predict the major products of the reactions below. Draw the full mechanism for the reactions, using appropriate arrows to indicate electron movement and the full structures of any intermediate(s). Use the mechanism of the reaction to provide a rationale for why the major product formed. OM (1 equivalent) ansole Bry Febr (1 culle brambenzone Fer (1 equivalent Priloromethylbenzene (9 marks) Question 4. Predict the major product from the treatment of 2,5-dibromopyridine with ammonia. Draw the full mechanism for...
all three questions
Application Questions 1. Draw the mechanism for the sulfonation of benzene. Use HSO as the electrophile. Draw the all the resonance structures of the stabilized cation intermediate 2. Draw the major product formed when each of the following compounds is treated with Cly/AICI, Assume chlorination only occurs in one position on the ring rather than multiple positions. COM COCX ooo 3. Predict whether toluene or chlorobenzene would undergo electrophilic aromatic substitution more quickly when treated with C1z/AICI....
Show lone pairs on all appropriate atoms and the proper flow of electrons. (1) Mechanism #1: • Predict the products of the following reaction under different temperature conditions. • Show the mechanism for how the two products are formed at different temperatures (include resonance structures if appropriate). • Label the kinetic product and the thermodynamic product. (5 points) -80 °C + HBr 40 °C (2) Predict the product and show the complete mechanism for the following reaction. • Make sure...