Wiki User
∙ 14y ago86g - 73g = 13g
so the volume is 13 ml
density is
86g / 13 ml = 6.615 g/ml
Wiki User
∙ 14y agoTo find the volume of the alloy, use the formula for density: Density = Mass / Volume. First, calculate the volume of water displaced by the alloy when immersed: Volume of water displaced = Mass in air - Mass in water. Then, use the density of water (1g/cm^3) to find the volume, as the volume of water displaced equals the volume of the alloy. Finally, calculate the density of the alloy by dividing its mass by the volume obtained.
Da = (D1V1 + D2V2 + D3V3 + ..) / (V1 + V2 + V3 + ..) = (m1 + m2 + m3 + ..) / (V1 + V2 + V3 + ..), where Da is the alloy's overall density, Dx is the density of the given component metal, Vx is the volume of the given component metal, and mx is the mass of the given component metal.
10 cm is not a volume10 cm3 is a volume.85g / 10 cm3 gives a density of 8.5There are some brass alloys and some bronze alloys that have a density of 8.5Brass is an alloy of zinc and copper (and often other metals).Bronze is an alloy of copper and tin (and often other metals)Many other alloys may also have such a density.
No, you cannot. The mass and volume of an unknown substance will give you its density. Density is not a property that can identify a substance unless you know that it is pure but not if it could be a mixture. For example, sodium has a density of 0.97 g/cc and osmium a density of 22.6 g/cc. These two metals can be combined in various proportions to give an alloy with a density with any value between the two given numbers. I am not sure how stable such an alloy might be but the point is that you could make an alloy with the same density as tin, or iron, or lead or bronze or most other metals or metallic alloys that you care to name.
To calculate the density of an alloy, you would first determine the individual densities of the metals in the alloy. Then, using the mass fractions of each metal in the alloy, you can calculate the overall density of the alloy using a weighted average formula. This formula involves multiplying the density of each metal by its mass fraction and summing those values to get the final density of the alloy.
To calculate the total weight of a copper cylinder, you can use the formula: Weight = Density x Volume. First, calculate the volume of the cylinder using the formula for the volume of a cylinder: π x radius^2 x height. Then, multiply the volume by the density of copper (8.96 g/cm^3) to get the total weight of the copper cylinder.
Da = (D1V1 + D2V2 + D3V3 + ..) / (V1 + V2 + V3 + ..) = (m1 + m2 + m3 + ..) / (V1 + V2 + V3 + ..), where Da is the alloy's overall density, Dx is the density of the given component metal, Vx is the volume of the given component metal, and mx is the mass of the given component metal.
Kg. is a unit of mass, not of weight. In any case, you don't have enough information. You also need to know the density of the alloy.
10 cm is not a volume10 cm3 is a volume.85g / 10 cm3 gives a density of 8.5There are some brass alloys and some bronze alloys that have a density of 8.5Brass is an alloy of zinc and copper (and often other metals).Bronze is an alloy of copper and tin (and often other metals)Many other alloys may also have such a density.
No, you cannot. The mass and volume of an unknown substance will give you its density. Density is not a property that can identify a substance unless you know that it is pure but not if it could be a mixture. For example, sodium has a density of 0.97 g/cc and osmium a density of 22.6 g/cc. These two metals can be combined in various proportions to give an alloy with a density with any value between the two given numbers. I am not sure how stable such an alloy might be but the point is that you could make an alloy with the same density as tin, or iron, or lead or bronze or most other metals or metallic alloys that you care to name.
No, you cannot. The mass and volume of an unknown substance will give you its density. Density is not a property that can identify a substance unless you know that it is pure but not if it could be a mixture. For example, sodium has a density of 0.97 g/cc and osmium a density of 22.6 g/cc. These two metals can be combined in various proportions to give an alloy with a density with any value between the two given numbers. I am not sure how stable such an alloy might be but the point is that you could make an alloy with the same density as tin, or iron, or lead or bronze or most other metals or metallic alloys that you care to name.
Yes. You can divide the mass by the volume to find its density. Density is a property that can identify a substance.* * * * *No, you cannot! Density is not a property that can identify a substance unless you know that it is pure.All you can do is with mass and volume is determine the density of the substance, which could be a mixture. For example, sodium has a density of 0.97 g/cc and osmium a density of 22.6 g/cc. These two metals can be combined in various proportions to give an alloy with a density with any value between the two given numbers. I am not sure how stable such an alloy might be but the point is that you could make an alloy with the same density as tin, or iron, or lead or bronze.
To calculate the density of an alloy, you would first determine the individual densities of the metals in the alloy. Then, using the mass fractions of each metal in the alloy, you can calculate the overall density of the alloy using a weighted average formula. This formula involves multiplying the density of each metal by its mass fraction and summing those values to get the final density of the alloy.
To calculate the total weight of a copper cylinder, you can use the formula: Weight = Density x Volume. First, calculate the volume of the cylinder using the formula for the volume of a cylinder: π x radius^2 x height. Then, multiply the volume by the density of copper (8.96 g/cm^3) to get the total weight of the copper cylinder.
Brass is an alloy which has a density which ranges between 0.0084 and 0.0087 grams per mm^3 So the mass will range between 318 times the density range.
No, density and hardness are not the same property. Density is the mass per unit volume of a substance, while hardness refers to a material's ability to resist deformation or scratching. Thorium has a high density but its hardness can vary depending on its alloy composition.
You can, but only if you know the density (or specific gravity) of the steel. Since steel is an alloy, its density is variable - depending on the other substances and their proportions in the alloy.
The density of aluminum alloy LM25 is approximately 2.72 g/cm³.