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Calculations Involving Density Calculating Density from Mass and Volume.

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Presentation on theme: "Calculations Involving Density Calculating Density from Mass and Volume."— Presentation transcript:

1 Calculations Involving Density Calculating Density from Mass and Volume

2 The mass of a sample of a metallic element is 0.693 kg. The volume of the sample is found to be 77.8 mL. Find the density of this metal in g/cm 3.

3 The unit for density asked for in this question is g/cm 3.

4 The mass of a sample of a metallic element is 0.693 kg. The volume of the sample is found to be 77.8 mL. Find the density of this metal in g/cm 3. The unit for density asked for in this question is g/cm 3. This mass is given in kg, so 0.693 kg needs to be converted to g.

5 The mass of a sample of a metallic element is 0.693 kg. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3. The unit for density asked for in this question is g/cm 3. This mass is given in kg, so 0.693 kg needs to be converted to g. The volume is given in mL. 1 mL is the same as 1 cm 3, so 77.8 mL = 77.8 cm 3.

6 The first thing we need to do is convert 0.693 kg into grams. The mass of a sample of a metallic element is 0.693 kg. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

7 The first thing we need to do is convert 0.693 kg into grams. 1 kg = 1000 g. The mass of a sample of a metallic element is 0.693 kg. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

8 The first thing we need to do is convert 0.693 kg into grams. 1 kg = 1000 g. Therefore, we can use the conversion factor: The mass of a sample of a metallic element is 0.693 kg. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

9 The first thing we need to do is convert 0.693 kg into grams. 1 kg = 1000 g. Therefore, we can use the conversion factor: The mass of a sample of a metallic element is 0.693 kg. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

10 The first thing we need to do is convert 0.693 kg into grams. 1 kg = 1000 g. Therefore, we can use the conversion factor: The mass of a sample of a metallic element is 0.693 kg. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

11 The first thing we need to do is convert 0.693 kg into grams. 1 kg = 1000 g. Therefore, we can use the conversion factor: The mass of a sample of a metallic element is 0.693 kg. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

12 The first thing we need to do is convert 0.693 kg into grams. 1 kg = 1000 g. Therefore, we can use the conversion factor: The mass of a sample of a metallic element is 693 g. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

13 Since we know the mass in grams and the volume in cm 3, we can now calculate the density in g/cm 3. The mass of a sample of a metallic element is 693 g. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

14 Since we know the mass in grams and the volume in cm 3, we can now calculate the density in g/cm 3. The mass of a sample of a metallic element is 693 g. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

15 Since we know the mass in grams and the volume in cm 3, we can now calculate the density in g/cm 3. The mass of a sample of a metallic element is 693 g. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

16 Since we know the mass in grams and the volume in cm 3, we can now calculate the density in g/cm 3. The mass of a sample of a metallic element is 693 g. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

17 Since we know the mass in grams and the volume in cm 3, we can now calculate the density in g/cm 3. The mass of a sample of a metallic element is 693 g. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

18 Since we know the mass in grams and the volume in cm 3, we can now calculate the density in g/cm 3. The mass of a sample of a metallic element is 693 g. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

19 Since we know the mass in grams and the volume in cm 3, we can now calculate the density in g/cm 3. The mass of a sample of a metallic element is 693 g. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

20 Since we know the mass in grams and the volume in cm 3, we can now calculate the density in g/cm 3. The mass of a sample of a metallic element is 693 g. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

21 Since we know the mass in grams and the volume in cm 3, we can now calculate the density in g/cm 3. The density of the metallic element is The mass of a sample of a metallic element is 693 g. The volume of the sample is found to be 77.8 cm 3. Find the density of this metal in g/cm 3.

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