Mass-Based Quantitation. Present in a well-organized and properly titled table all the masses (mass of lipid isolated from each KNOWN, mass of insoluble non-plastic contaminants isolated from each KNOWN, total mass of contaminants (lipid + insoluble non-plastic contaminants) recovered from each KNOWN, total mass of contaminants used to build each KNOWN, and corresponding KNOWN sample masses). Note that there are three (3) KNOWNS. Also include the resulting grams of lipid per gram of KNOWN, the grams of insoluble non-plastic contaminants per gram of KNOWN, and the percent of contaminants removed calculation results for each of the three (3) KNOWNS. Note that there are nine (9) calculations. Then present one example of each of the three calculations in complete detail. I Known: 4.23 Total 1.5 grams of lipids 0.5 gram starch 0.5 grams proteins 0.39 sand 0.11 paper 1.23 grams of plastic What we found 1.5 grams of lipids 0.76 grams of insoluble contaminants (paper and sand) Mass-Based Quantitation. Present in a well-organized and properly titled table all the masses (mass of lipid isolated from each KNOWN, mass of insoluble non-plastic contaminants isolated from each KNOWN, total mass of contaminants (lipid + insoluble non-plastic contaminants) recovered from each KNOWN, total mass of contaminants used to build each KNOWN, and corresponding KNOWN sample masses). Note that there are three (3) KNOWNS. Also include the resulting grams of lipid per gram of KNOWN, the grams of insoluble non-plastic contaminants per gram of KNOWN, and the percent of contaminants removed calculation results for each of the three (3) KNOWNS. Note that there are nine (9) calculations. Then present one example of each of the three calculations in complete detail. I Known: 4.23 Total 1.5 grams of lipids 0.5 gram starch 0.5 grams proteins 0.39 sand 0.11 paper 1.23 grams of plastic What we found 1.5 grams of lipids 0.76 grams of insoluble contaminants (paper and sand)