Extraction and Evaporation Recrystallization Essay

1. To the helpings of a simulated pharmaceutical preparation, Panacetin, and identifying the mystic component of the potpourri done extraction and disengagement methods.2. To learn how to purify by recrystallization, how to dry them and how to obtain a melting point. premeditation ACETANILIDE AND PHENACETIN ARE EYE AND SKIN IRRITANTS. Minimize pertain with your unknown compound.THEORYIn this experiment, Panacetin, a pharmaceutical preparation will be separated from its components by making use of their solubilities and sultry-base properties. Panacetin contains acetylsalicylic acid, saccharose and an unknown component that may be either phenylacetamide or acetophenetidin. Of the three components, only saccharose is weewee-insoluble in the organic solvent dichloromethane (CH2Cl2 or methylene chloride). The insoluble sucrose brook be get acrossed out if Panacetin is dissolved completely in dichloromethane by gravity filtration or centrifugation loss the soluble aspirin, ac etanilide and phenacetin in the ascendent.Although the acetanilide and aspirin argon both quite insoluble in water at room temperature, the atomic number 11 salt of aspirin is very soluble in water but insoluble in dichloromethane. Aspirin, which is a strong acid stack be converted to the salt, sodium acetylsalicylate by extraction with an aqueous solution of sodium bicarbonate . This salt will move from the dichloromethane grade, in which it is insoluble, to the aqueous layer, in which it is soluble. The unknown component will stay behind in the solutionand can be isolated by evaporating the solvent from the dichloromethane solution. Adding HCl to the aqueous solution restores aspirin as an insoluble white solid.In the third experiment, the identity of the unknown component of Panacetin will be purified. Purification is necessary be capture the separation procedure may be imperfect leaving traces of small quantities in the compound after separation or chemical reactions may oc cur prior to or during the separation adding new impurities. The unknown component can be purified by recrystallization, in which an impure solid dissolves in a hot (usually boiling) solvent then crystallizes from the cooled solution in a purer form.METHODS/PROCEDURESThis experiment was fol downhearteded from the textbook on pages 52-53 for experiment 2 and 59-60 for experiment 3 excluding the microscale part. First, weigh approximately 3.00 g of Panacetin and transfer it to a clean, dry 125 ml Erlenmeyer flask. Add 50 ml of dichloromethane to the flask , spatter the medley with a inhalation rod to break up every lumps. When it appears that no more of the solid will dissolve, tense up the mixture by gravity. Collect the undissolved solid on the come home paper and set it divagation to dry. Once it has completely dried, reweigh the solid. This compound separated by gravityfiltration is known as sucrose.Next, transfer the dribble to a separatory funnel and extract it with two 3 0 ml portions of 5% sodium bicarbonate . For distributively extraction, use a stirring rod to stir the liquid layer until any fizzing subsides forrader a stopper is placed on the funnel and shaken. dichloromethane will be on the seam layer and will be drained to a different container. Transfer the dichloromethane layer linchpin into the funnel for the second extraction. The upper layer will be transferred in an Erlenmeyer flask and will be used for rec all overy of acetanilide. Combine the two aqueous solutions in the same container and acidify slowly with 6M HCL to run it to a pH of 2. Cool the mixture to room temperature or below while swirling the flask once in a while in an ice bath. Collect the aspirin by vacuum filtration. Wash the aspirin on the filter with cold distilled water. Dry the sample thoroughly before weighing and leave it in the hood for the adjacent lab schedule.Before proceeding to recrystallization, triturate the compound with 20 ml of hexane. Crush the s olid with a stirring rod and filter. Recrystallize the unknown drug component from experiment 2 by boiling it with just comme il faut water to dissolve it completely, then letting it cool to room temperature then to 0 C. In coiffure to induce crystallization, it would be helpful to scratch the walls of the flask so that crystals would have a surface to get hold of to. Use vacuum filtration to isolate the sample then dry the product to a constant hole and weigh in a tared vial.Grind a small get along of the dry unknown component to a fine powder on a respect glass using a spatula. rive the solid into four pertain portions. Combine portions 1 and 2. Mix portion 3 with an approximately equal amount of finely ground acetanilide and mix portion 4 with an approximately equal amount of finely ground phenacetin. Obtain the melting point ranges of the purified unknown (portions 1 and 2), mixture with acetanilide and mixture with phenacetin. Each melting point should be measured on tw o samples- more than that if melting points are imprecise or accurate.Safety Issues (all of these are taken from MSDSonline.com)1. AcetanilidePotential Acute make unsteady in case of eye contact (irritant), of ingestion, of inhalation. middling hazardous in case of skin contact(irritant).Potential Chronic Health cause Hazardous in case of eye contact (irritant), of ingestion, of inhalation. S go downly hazardous in case of skin contact (irritant).2. PhenacetinEye and skin irritant3. DichloromethanePotential Health Effects dreamCauses fury to respiratory tract. Has a strong narcotic gist with symptoms of mental confusion, light-headedness, fatigue, nausea, vomiting and headache. Causes formation of carbon monoxide in blood which affects cardiovascular system and central noi both(prenominal) system. Continued exposure may build increased light-headedness, staggering, unconsciousness, and even death. Exposure may make the symptoms of angina pectoris (chest pains) worse. use ma y cause irritation of the gastrointestinal tract with vomiting. If vomiting results in aspiration, chemical pneumonia could follow. submersion through with(predicate) gastrointestinal tract may produce symptoms of central nervous system depression ranging from light headedness to unconsciousness.Skin takeCauses irritation, redness and pain. Prolonged contact can cause burns. Liquid degreases the skin. May be absorbed through skin.Eye miteVapors can cause eye irritation. Contact can produce pain, inflammation andtemporal eye damage.Chronic ExposureCan cause headache, mental confusion, depression, colored effects, kidney effects, bronchitis, loss of appetite, nausea, lack of balance, and visual disturbances. Can cause dermatitis upon prolonged skin contact. Methylene chloride may cause cancer in humans. Aggravation of Pre-existing ConditionsPersons with pre-existing skin disorders, eye problems, impaired colorful, kidney, respiratory or cardiovascular function may be more suscep tible to the effects of this substance.4. AspirinEye ContactModerate Eye Irritation Signs/symptoms may include redness, swelling, pain, tearing, and blurred or hazy vision. Skin ContactModerate Skin Irritation Signs/symptoms may include localized redness, swelling, itching, and dryness. May be absorbed through skin and cause marker organ effects. InhalationNo health effects are expected.IngestionMay be foul if swallowed.Gastrointestinal Irritation Signs/symptoms may include abdominal pain, nausea, diarrhea and vomiting. repeat ingestion may causeMay be absorbed following ingestion and cause target organ effects. Target Organ EffectsProlonged or repeated exposure may causeAuditory Effects Signs/symptoms may include hearing impairment, balance dysfunction and ringing in the ears. coagulation Disorders Signs/symptoms may include increased blood clotting time and internal bleeding (hemorrhage). Liver Effects Signs/symptoms may include loss of appetite, weight loss, fatigue, weakness, abdominal tenderness and jaundice.Central Nervous System (CNS) belief Signs/symptoms may include headache, dizziness, drowsiness, incoordination, nausea, slowed reaction time, slurredspeech, giddiness, and unconsciousness. Kidney Effects Signs/symptoms may include reduced or absorbed urine production, increased serum creatinine, lower back pain, increased protein in urine, and increased blood carbamide nitrogen (BUN). Pulmonary Edema Signs/symptoms may include chest discomfort, shortness of breath, significant cough with effervescent sputum production, bluish colored skin (cyanosis), increased heart rate, respiratory failure and may be fatal. Single exposure may causeImmunological Effects Signs/symptoms may include alterations in the hail of circulating immune cells, allergic skin and /or respiratory reaction, and changes in immune function.5. Sodium bicarbonateEMERGENCY OVERVIEWWarning May cause respiratory tract irritation. Causes eye and skin irritation. Target organs Blood , kidneys, heart, liver, eyes, skin.Potential Health EffectsEye Causes eye irritation.Skin Causes skin irritation. May be harmful if absorbed through the skin. Ingestion May be harmful if swallowed. Causes gastrointestinal tract irritation. Inhalation May cause respiratory tract irritation. May be harmful if inhaled. Chronic May cause liver and kidney damage. Adverse reproductive effects have been reported in animals. Laboratory experiments have resulted in mutagenic effects. Chronic exposure may cause blood effects.6. Hydrochloric AcidPOTENTIAL HEALTH EFFECTSInhalation May cause irritation (possibly severe), chemical burns, and pulmonary edema.Skin contact May cause irritation (possibly severe) and chemical burns.Eye contact May cause irritation (possibly severe), chemical burns, eye damage, and blindness.Ingestion non a likely route of exposure.Target Organs Effected Respiratory System, Skin, EyeChronic Effects Repeated or prolonged exposure to dilute solutions may result in derm atitis. Discoloration of the dentition may occur as a result of long term exposure.Interaction with Other Chemicals Which farm Toxicity None known Medical Conditions Aggravated by Exposure None knownOBSERVATIONS/RESULTSIn Experiment 2, the extraction of substances from one another is based on the differences in their physical and chemical properties. Approximately, 3.0029 g of panacetin was weighed and completely dissolved in 50 ml of dichloromethane and filtered. The residue was left to dry and weighed (sucrose). therefore 30 ml of NaHCO3 was added to the filtrate. This solution was transferred into a separatory funnel. This formed two layers. Top layer was the organic layer (NaHCO3) described as a hap liquid. Bottom layer was the aqueous layer and was yellow in color. The filtrate was washed twice with NaHCO3. HCl was added to the aqueous solution until the pH equaled to 2.0. It was filtered through vacuum filtration and allowed to dry until the abutting weeks lab. This filtr ate is known as aspirin. Meanwhile, the unknown in the organic layer was in addition allowed to settle for the next experiment.In experiment 3, before we went to do recrystallization, we first did trituration of the unknown by adding 20 ml of hexane. We crushed the solid and filtered. Even with the addition of approximately 27 ml of boiling water into the compound, it started to dissolve. That was the first clue that we have acetanilide as our unknown. We went ahead and continue heating and swirling the solution over a hot plate. There was the formation of brown oil-like globules. We were then asked to decant the clear liquid from this solution. This clear liquid was allowed to cool to room temperature then to 0 C. There was formation of white crystals at the march on of the beaker. Through vacuum filtration, we were able to filter the product, weighed and used for melting point measurement of the unknown.The solid was divided up into 4 equal parts. First 2 parts were combined, 3 rd part was involved with acetanilide and the finis part was mixed with phenacetin. After taking the melting points of all these 3 substances we were able to identify the unknown product to be acetanilide.No big issues encountered during this experiment. Transferring some products as well as the final crystals from watch glass and filter paper and leaving some products were crucial to get the most final product. This explicates wherefore the percent recovery for the unknown was low. Some crystals fell off or didnt transfer to the filter paper. Even though the % recovery was relatively low (88.4079%), this experiment still produced a 0.6898 g of product. reciprocation/CONCLUSIONThis experiment was focused on two main objectives. First, the analysis of panacetin to find out what partings of sucrose, aspirin and the unknown component it contains. Second, to find out whether the unknown is acetanilide and phenacetin. A big part of the piece of writing of panacetin was made up of t he unknown. We were able to determine the composition of sucrose to be 17.95 %, Aspirin 26.93% and the unknown to be 55.12% After following the experiment procedures, we were able to purify through recrystallization the end product to be acetanilide. This is an inodorous white crystalline solid substance which has a melting point of 114 C. Our experimental value for acetanilides melting point was 117 which indicates that the result had a very narrow range and close to the books value. I would therefore conclude that we had isolated a close to pure product of acetanilide with microscopic impurities present.1. a. Describe any evidence that a chemical reaction occurred when you added 6 M HCl to the solution of sodium acetylsalicylateA chemical reaction took place upon the addition of 6M HCl to a solution of sodium acetylsalicylate because a come down formed known as aspirin.b. Explain why the changes that you observed took place.The observed change took place as a result of the acid reacting with the salt forming a compound insoluble in water.2. Describe any explain the possible effect on your results of the following experimental errors or variations. In all(prenominal) case, express the component (s) whose percentage(s) would be too high or too low.a. After adding dichloromethane to Panacetin, you didnt stir or shake the mixture long enoughImproper stirring or shaking of the mixture will result in incomplete dissolution of the panacetin mixture. There will be loss of some solid analytes during filtration. The recovered amounts will be lower than they should be leading to a final percentage to be low.b. During the NaHCO3 extraction you failed to mix the aqueous and organic layers thoroughly.If the aqueous and organic layers were not thoroughly mixed the acid would remain in the solution and the extraction would be less efficient resulting to a low percentage yield.c. You mistakenly extracted the dichloromethane solution with 5 % HCl ratherthan 5 % NaHCO3.If 5% HCl is used kinda of 5% NaHCO3 that would protonate the aspirin and keep it in the organic solution making the aspirin, acetylsalicyclic acid.d. Instead of using pH paper, you neutralized the sodium bicarbonate solution to pH 7 using litmus paperAt ph7 the bicarbonate wouldnt be able to act as a base and extract a proton because at pH of 7 it would protonate itself so it wouldnt be able to react with aspirin.5. Write a balanced reaction equations for the reactions involved a. When aspirin dissolves in aqueous NaHCO3C9H8O4 (aq) + NaHCO3 (aq) C9H7O4Na (aq) + CO2 + H2O Weak acid weak base Strong Base Strong acidb. When Aspirin is precipitated from a sodium acetylsalicylate solution by HCLC9H7O4Na + HCl - C9H8O4 + NaCl Strong Base Strong acid Weak Acid Weak Base presume that both reactions are spontaneous under the standard conditions, label the stronger acid, stronger base, weaker acid and weaker base in each equation.Experiment 31. a. What is the minimum volume of boiling water needed to dissolve 0.200 g of phenacetin?b. About how much phenacetin will remain dissolved when the water is cooledto room temperature?c. Calculate the maximum mass of solid (undissolved) phenacetin that can be recovered when the cooled solution is filtered.0.200 g-0.0125 g (amount soluble in cold water)= 0.1875 g2. An unknown compound X is one of the four compounds listed in table 3.2. A mixture of X with benzoic acid melts at 89 C, a mixture of X with phenyl succinate melts at 120 C and a mixture of X with m-aminophenol melts at 102 C. Give the identity of X and explain your reasoning.X is phenyl succinate.When a compound mixes with a different compound, the melting point of the mixture will be lower than the melting points of either of the pure compounds. Basing from the table, the melting point of pure benzoic acid is 121 C but when mixed to X, it went down to 89 C. Likewise with O-toluic acid and m-aminophenol. Since the melting point of mixture X with phenyl succinate has a melting point of 120 C, the melting point of pure X must be equal or closer to 121. Mixing X with phenyl succinate did not change the melting point gum olibanum X must be phenyl succinate.