1. This experiment separates meat into an acetone-soluble part and an acetone-insoluble part. The calculations are based on the principal components of meat being fat (acetone soluble) and protein (acetone insoluble or fat-free meat in report sheet). More realistically, the principal components of meat are fat, protein, and water. Water is acetone soluble. Based on this information, the calculations correctly calculate what quantity, % fat or % fat-free meat? Is the incorrectly calculated quantity over or under estimated?

4. What affect would each of the following changes in procedure have had on the calculated percentage of fat found for your meat product?

a) The acetone-washed meat in the thimble was not completely dried before weighing.

b) The amount of acetone in the flask was increased from 50ml to 75ml, at the start of the extraction process.

c) The fresh meat was thoroughly dried, before starting the experiment.

You have posted a good bit of the procedure; however, how you treat the extracts is missing and that information is crucial.

Materials and Equipment

Water Inlet Water Outlet
Extraction Thimble Cooling Cell
Flask Siphon Cup

Procedure
Obtain a Whiley extractor unit (see Figure next page) from the stockroom and a sample of bologna, salami hamburger or frankfurter meat from your instructor. Note the brand name and the price per pound of your meat sample.
Weigh a fresh paper extraction thimble in an aluminum dish, in the analytical balance. Record this weight on you report sheet. Weigh and record the aluminum dish alone.
Shred a thumb-size piece of meat by means of a knife or spatula, and introduce the pieces into the extraction thimble. Reweigh thimble + contents in the aluminum dish. Fill the extraction thimble to within ¼” of the top.
Now pour 50 ml of acetone into the ehrlenmeyer flask (which forms part of the Whiley extractor). Put the filled thimble into the glass siphon-cup and hang it, by means of the attached wire, from the cooling coil of the extractor (see diagram on the next page) over the flask with the cooling unit with siphon-cup so that the projecting siphon-tube hangs above the surface of the acetone. Attach one of the connecting rubber hoses to a cold-water tap, and have the other empty into the drain trough. (It is advisable to extend the exit hose with a piece of glass tubing). Now, stand the assembled extractor on a hot plate, topped with a wire mesh, and set the dial for MEDIUM before heating. Be careful that none of the rubber hoses touch the hot plate, and that there are no open flames in the vicinity of the apparatus.
Let the contents of the extractor percolate for at least 15 minutes after the first drop of the condensed acetone drips from the cooling coil (A thirty-minute extraction period is recommended.
Turn off the hot plate and remove the apparatus to the desktop. When the flask is comfortably cool to the touch, turn off the circulating water, detach the siphon cup, and remove the extraction thimble by means of a tweezers. Transfer the thimble and contents to the previously-used aluminum dish.
Place the dish + contents into a drying oven at 60oC and allow to dry for 20 minutes. After this time, check to see if any moisture is visible on the inside or outside of the dish. If dry, remove to the open air and carefully smell it. Should a pronounced odor of acetone persist, continue the drying for a longer period. Then, allow the dish to cool, and reweigh it with its contents on the analytical balance.

is this what you wanted?

for ground beef i got 62.5% of fat and 11.44 (cost/pound of fat free meat)

for frank i got 46. 2% 11.13(cost/pound of fat free meat)

for salami 73.5 % 61.38 (cost/pound of fat free meat)

for balaoni 22.58% 12.89 cost

To answer these questions, we need to analyze the given information and consider the effects of each change in procedure on the calculated percentage of fat.

1. Based on the given information, the experiment separates meat into an acetone-soluble part (fat) and an acetone-insoluble part (fat-free meat or protein). However, this representation is not entirely accurate because meat also contains water, which is acetone-soluble. Therefore, the calculations correctly estimate the quantity of either % fat or % fat-free meat, but they do not account for the water content. Consequently, the incorrectly calculated quantity is the total % fat or the total % fat-free meat. It is overestimated because it does not consider the percentage of water.

4. Now let's consider the effects of each change in procedure on the calculated percentage of fat:

a) If the acetone-washed meat in the thimble was not completely dried before weighing, it would result in an overestimated percentage of fat. This is because the remaining moisture on the meat would increase the weight of the sample, making it appear to have a higher fat content than it actually does.

b) If the amount of acetone in the flask was increased from 50ml to 75ml at the start of the extraction process, it would not have a significant effect on the calculated percentage of fat. The increase in the volume of acetone does not alter the solubility characteristics of fat or protein, so the relative proportions of the two components would remain the same and therefore not affect the calculations.

c) If the fresh meat was thoroughly dried before starting the experiment, it would result in an underestimated percentage of fat. This is because the drying process would remove water from the meat, reducing its weight but not affecting the fat content. As a result, the calculated percentage of fat would seem lower than the actual value.

To summarize, not completely drying the acetone-washed meat before weighing would overestimate the percentage of fat, increasing the amount. Increasing the amount of acetone in the flask would have no significant effect. Thoroughly drying the fresh meat before the experiment would underestimate the percentage of fat, reducing the value.