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∙ 11y agoDensity = Mass/Volume = 60.9/6.8 = 8.96 grams per cm3
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∙ 11y agoCopper has a density of 8920 kg/m3. So 5kg is 0.000565 m3 or 560.5 cm3.======================================Density of copper (look-up) = 8.920 gm/cm3Definition: Density =mass/volumeMultiply each side of the definition formula by (volume): (Volume) x (Density) = (mass) Divide each side by (Density): Volume = (mass)/(density) Volume = 5,000/8.920 = 560.5 cm3 (rounded)
You need to multiply the volume, by the density of copper.
density = mass / volume → volume = mass / density = 6000 g / 8.96 g/cm³ ≈ 670 cm³
volume =mass/ density volume = 55.932/8.92 = 6.27 cm3
The density of the mass is 48 g/cm3
The density of this copper mass is about 8.93 g/cm3
The density of the copper is 8.9 g/cm3
The density of copper is 8.94 grams per cm3. The mass will depend on the volume of the "lump" of copper.
The mass of copper can be calculated using its density, which is approximately 8.96 g/cm3. By multiplying the volume (27 cm3) by the density, you can determine the mass. In this case, the mass of the 27 cm3 piece of copper would be approximately 242.16 grams.
The density of copper is about 8.96 grams per cubic centimeter. Therefore, the density of a material with a mass of 1800 grams and a volume of 200 cm3 would be approximately 9 g/cm3, given that the material is copper.
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If a bar of copper has a mass of 216g and a volume of 24 cm3 then its density is 9 g/cm.
The density of copper is approximately 8,960 kg/m3. To find the mass of the cube, first convert the volume from cm3 to m3 by dividing by 1,000. Then, multiply the volume in m3 by the density of copper to get the mass in kilograms.
(178)/20.5 = 8.6829 grams per cm3
The density of copper is 8.94 g/cm3. This can be calculated by dividing the total mass of the pennies (36.93 g) by the total volume they displace (4.13 cm3). This gives the density of copper as 8.94 g/cm3.
To find the density of copper and tin, we need to calculate the mass and volume of each metal in both alloys. Once we have those values, we can then determine the density by dividing the mass by the volume. For the first alloy with 8 cm3 of copper, we find the density of copper to be 9.5 g/cm3 and for tin, it is 7.75 g/cm3. Similarly, for the second alloy with 9 cm3 of copper, the density of copper is 17.56 g/cm3, and for tin, it is 14.36 g/cm3.
mass= density *volume Density of copper= 8.94g/cm3 so mass =8.94g/cm3 * 10cm3= 89.4g