Measurements IlI: Density of a Solid Prelab3 50 staples per strip Standard V" leg length Suringline 1.000 S TAPLES NCLODED M T W R A student obtained a clean flask. She weighed the flask and stopper on an analytical balance and found the total mass to be 34.232 g. She then filled the flask with water and found the new mass to be 60.167 g. The temperature of the water was measured to be 21°C. Use this data to find the internal volume of the stoppered flask. The density of water at various temperatures is given in Appendix H. First calculate the mass of the water in the flask: Mass of water = mass of filled flask - mass of empty flask Water 1. Mass of water = LOU09 g -34. 232 25.935 Use the density to determine the volume of water. Density mass/volume, or 11 y = 25.935/o.g980 Volume = mass/density VOlume ofWater 2. Volume of water internal volume of flask = 25 8 cm To the empty flask she added pieces of the metal until the flask was about half full. She weighed the stoppered flask and its contents and found the mass to be 152.445 g. She then filled the flask with water and stoppered it. She obtained a total mass of 164.724 g for the flask, stopper, metal, and water. Find the density of the metal. Show all calculations. Make sure you are using the proper number of significant figures (see Appendix E). easurements lI: Density of a Solid Next, determine the mass of the metal: 3. Mass of metal = o.12g - 152.445 g12.274 g Next, determine the mass of water (from which we will calculate the volume of water): Mass of water = (mass of flask + stopper + metal + water) - (mass of flask +stopper + metal) 4. Mass of water t.124g-15244S g= 12.21 From this value we can now calculate the volume of water from volume = mass/density 5. Volume of water 12.3O cm3 From the volume of water we can calculate the volume of metal: Volume of metal = volume of flask - volume of water 9 L7 141 03001 6. Volume of metal = 25.18 cm3 - 12.30 cm= 3.68 cm Finally, we can calculate the density using Density = mass/volume 7. Density of metal = 0.41720 g/cm3 D 12.279/2s. 98

is this correct, especially questions 3 and 7 on the second page. THANKS :) 

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Measurements IlI: Density of a Solid Prelab3 50 staples per strip Standard V" leg length Suringline 1.000 S TAPLES NCLODED M T W R A student obtained a clean flask. She weighed the flask and stopper on an analytical balance and found the total mass to be 34.232 g. She then filled the flask with water and found the new mass to be 60.167 g. The temperature of the water was measured to be 21°C. Use this data to find the internal volume of the stoppered flask. The density of water at various temperatures is given in Appendix H. First calculate the mass of the water in the flask: Mass of water = mass of filled flask - mass of empty flask Water 1. Mass of water = LOU09 g -34. 232 25.935 Use the density to determine the volume of water. Density mass/volume, or 11 y = 25.935/o.g980 Volume = mass/density VOlume ofWater 2. Volume of water internal volume of flask = 25 8 cm To the empty flask she added pieces of the metal until the flask was about half full. She weighed the stoppered flask and its contents and found the mass to be 152.445 g. She then filled the flask with water and stoppered it. She obtained a total mass of 164.724 g for the flask, stopper, metal, and water. Find the density of the metal. Show all calculations. Make sure you are using the proper number of significant figures (see Appendix E).

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easurements lI: Density of a Solid Next, determine the mass of the metal: 3. Mass of metal = o.12g - 152.445 g12.274 g Next, determine the mass of water (from which we will calculate the volume of water): Mass of water = (mass of flask + stopper + metal + water) - (mass of flask +stopper + metal) 4. Mass of water t.124g-15244S g= 12.21 From this value we can now calculate the volume of water from volume = mass/density 5. Volume of water 12.3O cm3 From the volume of water we can calculate the volume of metal: Volume of metal = volume of flask - volume of water 9 L7 141 03001 6. Volume of metal = 25.18 cm3 - 12.30 cm= 3.68 cm Finally, we can calculate the density using Density = mass/volume 7. Density of metal = 0.41720 g/cm3 D 12.279/2s. 98