2. You were to use 82 mL of bleach. Assuming the bleach was indeed 8.25 % w/w NaOCI, (equivalent to 1.24 M NaOCI), and there was sufficient acetic acid to convert all of it to HOCI, how many moles of HOCI did you use? Show your calculations carefully.

Please, I need help to do question 2 for the post-Lab questions

 

                          These is my values obtained in the laboratory :

volume of cyclohexanol = 7.39mL  ; mass of cyclohexanol = 7.112 g

mass of cyclohexanone obtained = 1.535 g

Thymol blue = 3 drops

volume of Sodium Bisulfite = 1mL

volume NaOH used = 20mL

  

                              Continuation of the procedure

 

2- Place 0.0700 mol (How many mL would this be?) of cyclohexanol into the RB flask. To it add 6.00 mL of glacial acetic acid.

3- Turn on the stirrer slowly (not the heater!). Make sure the stir bar will not hit the tip of the thermometer. Add 82 mL of a 8.25 % w/w bleach solution (NaOCl (aq)) into the separatory funnel and slowly drip the bleach into the solution at such a rate that the temperature stays between 40-50 °C. The reaction is exothermic and you do not need to heat this reaction with the hot plate. However, do not allow the temperature to go below 40°C as the oxidation would be incomplete.

4- After all of the bleach has been added and the temperature starts to cool, stir for 15 minutes, then test the solution with starch iodide paper for excess bleach: This is done by first moistening the starch iodide paper with water, then bringing a drop of the solution (from the

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EXPERIMENT 4: OXIDATION OF CYCLOHEXANOL TO CYCLOHEXANONE 43 lower layer) with a glass stirring rod and touching it to the test paper. The paper should turn black, showing presence of unreacted bleach. Because the exact concentration of hypochlorite in the bleach solution depends upon its age, it is necessary to make sure that you have an excess of hypochlorite to generate the hypochlorous acid, thus ensuring that the cyclohexanol has been fully oxidized. If the test shows that excess bleach is not present you must add 10 mL of bleach and carry the reaction out 5 minutes longer. Test again with starch iodide paper to check that excess bleach is indeed present. If necessary, add more bleach and run the reaction longer. Repeat this step as necessary until the starch iodide test is positive (test paper turns black). 5. After the reaction is completed, the excess hypochlorous acid must be decomposed with a few mL of a saturated sodium bisulfite solution. Add enough sodium bisulfite until the starch iodide test is negative (test paper does not turn black). A few mL may be needed. 6. To neutralize the acetic acid to avoid co-distillation with the cyclohexanone, place a few drops of thymol blue indicator in the reaction flask and add enough 6 M NaOH solution (about 15-20 mL) until the solution is neutral as indicated by its blue color. 7. Modify your apparatus to do a simple steam distillation by attaching a distillation head, thermometer adapter, thermometer and West condenser to the center opening of the reaction flask. Add a couple of boiling chips. Stopper the two side openings with ground glass stoppers. Replace the magnetic stirrer with a heating mantle connected to a Variac. Attach rubber hoses to the condenser. (No floods please!) Have your instructor check your setup before you begin the distillation! Distill over about 50 mL of the solution. Thermometer Adaptor- Distillation Head Side Openings Stoppered with Glass Stoppers Heating Mantle Iron Ring Blue Clip H₂O IN from Tap/ H₂O OUT to drain Heating Mantle plugged into Variac s West Condenser clamped to another ring stand for support

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44 EXPERIMENT 4: OXIDATION OF CYCLOHEXANOL TO CYCLOHEXANONE 8. Place the distillate into a separatory funnel and add 50 mL of saturated NaCl solution to “salt out" the organic phase. (Cyclohexanone is fairly soluble in water. The presence of salt will make it less soluble.) Shake the mixture in the separatory funnel to dissolve the salt and thoroughly mix the heterogeneous mixture. Next, carefully separate the top product layer from the more voluminous bottom layer. This is best done by draining off the lower aqueous layer and then transferring the remaining organic layer, with a Pasteur pipet, into a pre-weighed vial. Determine the mass of the product and calculate the % yield. 9. To your product add a small amount of anhydrous MgSO4 or CaCl2 pellets as a drying agent. Stir to mix and let it sit for about 5 minutes. Take one drop for an IR spectrum and take three drops to measure the refractive index. Turn in the rest of your product in a labeled vial to your instructor. Refer to page 23 to see what must be included on the label. The IR spectrum must be fully analyzed: Label the major peaks with wavenumbers & explanations of what they are due to (e.g. O-H stretch). Unreacted cyclohexanol, acetic acid and water would be the major impurities. Take this into account as you analyze your IR spectrum. You can obtain IR spectra of cyclohexanol and acetic acid from the Internet to include in your lab report for comparison. Be sure to include in your lab report a discussion of and conclusions drawn from the comparison, and why you measured the refractive index of your product. Post-Lab Questions: (Remember to answer in full sentences & always explain your answer.) 1. You were to use 6.0 mL of glacial acetic acid. How many moles of acetic acid would that be? Show your calculations carefully. 2. You were to use 82 mL of bleach. Assuming the bleach was indeed 8.25 % w/w NaOCI, (equivalent to 1.24 M NaOC1), and there was sufficient acetic acid to convert all of it to HOCI, how many moles of HOCI did you use? Show your calculations carefully. 3. Which was the limiting reactant in your oxidation of cyclohexanol? Explain clearly, showing any calculations necessary to lead you to your conclusion. 4. As stated in the procedure, the most likely impurities are unreacted cyclohexanol, acetic acid and water. How would you tell from the IR spectrum whether any or all of these impurities are present in your final product? Explain carefully. 5. What purpose does the acetic acid serve in this oxidation reaction? Be specific. 6. Why was it important to neutralize the acetic acid before performing the steam distillation? Be specific. 7. Write a chemical equation using structural formulas to show what happened to the acetic acid when aqueous NaOH was added.