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Q1: Why is acetanilide solubility different in hot versus cold water?
Acetanilide is moderately soluble in boiling water but much less soluble at room temperature and cold water. This solubility difference is the basis for recrystallization. When you dissolve acetanilide in hot water and then cool the solution, the decreased solubility causes acetanilide to form crystals while water-soluble impurities remain dissolved in the solution.
Q2: What is the purpose of hot filtration in the acetanilide recrystallization procedure?
Hot filtration removes insoluble impurities that don't dissolve even in boiling water. After boiling the acetanilide solution for 5 minutes, if solid remains, you perform hot filtration by pouring the hot solution through a heated funnel with filter paper. This separates impurities from the acetanilide solution before cooling and crystallization occur.
Q3: How do you promote crystal formation if crystals don't appear after cooling?
If crystals don't form after the solution cools to room temperature, gently scratch the inside of the flask under the solution with a glass rod. Crystals form more easily on rough or scratched surfaces. If scratching doesn't work after 10 minutes, ask your instructor for a seed crystal of high purity acetanilide and drop it into the solution to initiate crystal growth.
Q4: Why is an ice bath used after crystals form in the acetanilide solution?
An ice bath further decreases the solubility of acetanilide, promoting additional crystal growth. After crystals appear at room temperature, you place the flask in a shallow ice bath for at least 15 minutes. This cold temperature causes more acetanilide to precipitate from solution, increasing the mass of pure crystals you can recover.
Q5: What solvent mixture is used for recrystallizing trans-cinnamic acid and why?
Trans-cinnamic acid is recrystallized using a mixture of 95% ethanol and 5% water. Cinnamic acid is soluble in ethanol and nearly insoluble in water. This mixed solvent allows cinnamic acid to dissolve at high temperatures but become less soluble when cooled, enabling effective crystallization and purification of the compound.
Q6: How does melting point comparison indicate the purity of recrystallized compounds?
The less pure starting material has a lower melting point and a broader melting range than the recrystallized compound. Pure acetanilide melts at 114°C and pure trans-cinnamic acid melts at 133°C. Your recrystallized crystals should have melting points spanning only 1–2°C and match or fall just below literature values, confirming improved purity.
Q7: Why is percent recovery always less than 100% in a recrystallization experiment?
Percent recovery is always below 100% because some of each compound remains dissolved in the cold solvent even after crystallization and cooling. Additionally, some material is lost during transfers and vacuum filtration. The solubility of acetanilide in cold water and cinnamic acid in the ethanol-water mixture means not all dissolved compound can be recovered as crystals.