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10:40 AM Fri Mar 3 Virtual Lab Expt. #3 Density and Specific Gravity 3. Density of metal rounds (steel) The mass in gram of three metal round (steel) provided is measured one at a time and data entered in Table 3, under column 2, Replications #1, #2, #3, respectively. Overflow-cup with a drain-nozzle is placed on a bench above the water sink and filled with water until excess water flows out through the nozzle and levels off. After the excess water stops dripping out of the overflow-cup, an empty beaker is held under the nozzle with one hand and the metal round, of which mass entered in Rep #1, is gently dropped in the water with the other hand; the metal will displace a fraction of the water and water flows out through the nozzle into the beaker. The content of the beaker is then poured into a small, graduated cylinder, and the volume is measured in ml and data recorded under volume of metal column. The experiment described for Rep #1 is repeated in the same manner for metal rounds 2, and 3, and data entered in Row 2 and 3, in the appropriate columns. Assignment The theoretical data generated following the above outlined procedure are given Table 3 below. From the given data, calculate and enter the density for each replication, the mean density value, and the % error of the experiment, using the given formulae. The density (g/ml) of the metal is calculated for each replication by dividing the mass of metal round (g) by the volume of metal (ml), and results entered in the last column. The mean density values are calculated by adding the three replications and dividing by 3. The error % as compared to the standard density of steel, which is 7.8g/ml, is calculated using the formula given under density of water measurement. Table 3. Density of round metal (steel) Replicate Mass of metal (g) 70 95 120 #1 #2 #3 Volume of metal (ml) 9.5 13.5 16.0 Mean (average) % Error Density mass/volume (g/ml)