Macromolecule Lab - Sugar and Fats

Center for eLearning | FSCJ

1 Feb 201604:55

Summary

TLDRThe video demonstrates tests for sugar and fat content in various solutions. First, the sugar test uses Benedict’s reagent and a water bath to identify sugar levels in distilled water, starch, sucrose solutions, and onion juice, with color changes indicating sugar presence and concentration. Next, the fat test involves placing solutions on brown paper to observe whether an oily residue remains, indicating fat content. The presenter explains the results, expected outcomes, and guides on recording data and writing conclusions. The video concludes by encouraging students to analyze unexpected results and complete their lab reports.

Takeaways

🧪 The experiment involves testing for the presence of sugar using different solutions and Benedict’s reagent.
💧 The solutions tested include distilled water, 1% starch solution, 1% sucrose solution, 10% sucrose solution, and onion juice.
🟦 Test tube 1 (di water) showed a blue color, indicating a negative result for sugar.
🟦 Test tube 2 (1% starch) also showed a blue color, indicating no sugar is present.
🟢 Test tube 3 (1% sucrose) turned light blue-green, indicating a minimal presence of sugar.
🟡 Test tube 4 (10% sucrose) turned yellow, indicating a decent amount of sugar.
🟤 Test tube 5 (onion juice) turned dark brown, indicating a significant presence of sugar.
📊 The sugar test results allow for qualitative evaluation of sugar concentration based on color changes.
📄 The second experiment tests for fat using a brown paper bag, checking for oily residue after 15 minutes.
🛢 Vegetable oil and milk solution tested positive for fat, while distilled water tested negative.

Q & A

What substances were tested for the presence of sugar in the experiment?
-The substances tested for sugar were di water, 1% starch solution, 1% sucrose solution, 10% sucrose solution, and onion juice.
How was the Benedict's test for sugar conducted in the experiment?
-3ml of each substance was placed in separate test tubes, followed by the addition of 5 drops of Benedict’s reagent. The test tubes were then placed in a boiling water bath for 10 minutes.
What safety precautions were mentioned during the Benedict’s test?
-The safety precaution mentioned was the use of a test tube holder to remove the hot test tubes from the boiling water bath.
What were the results of the Benedict's test for di water and 1% starch solution?
-Both di water and 1% starch solution remained blue, indicating a negative result for sugar.
How did the 1% sucrose solution react in the Benedict's test, and what did it indicate?
-The 1% sucrose solution turned light blue-green, indicating a slight positive result for sugar, meaning a minimal amount of sugar was present.
What color change occurred for the 10% sucrose solution, and what did it signify?
-The 10% sucrose solution turned yellow, indicating a positive result for sugar and a decent amount of sugar present.
What was the result for onion juice in the Benedict’s test, and what did the color indicate?
-The onion juice turned dark brown, indicating a positive result for sugar with a significant amount of sugar present.
What conclusions were drawn from the results of the sugar test?
-The conclusions drawn were that test tubes 1 (di water) and 2 (1% starch) gave negative results for sugar, while test tubes 3 (1% sucrose), 4 (10% sucrose), and 5 (onion juice) tested positive with increasing amounts of sugar indicated by the color changes.
How was the fat test conducted in the experiment?
-A drop of each substance (di water, vegetable oil, and milk solution) was placed on a brown paper bag, evenly spread, and left for 15 minutes to observe whether an oily residue remained.
What were the results of the fat test for di water, vegetable oil, and the milk solution?
-Di water tested negative for fat, while both vegetable oil and the milk solution tested positive, leaving an oily residue.