It is 1.0128 g/mL.
Density is independent of the amount of material in a sample. A sample of a homogeneous substance used to find the density can have any volume. If a cm3 of the substance weighs 8.1 grams, then 10 cm3 will weigh 81.0 grams.We might consider water in a glass or bottle as an example. A small sample will have a given weight (mass) because water has a given density. Ten times that sample volume will have ten times the mass of that volume of water. The density of water does not change if we examine water in a small glass and another sample of the same water in a gallon jug.
8.57 g D=mass/volume Wanting to fight weight of the vial so you would use Mass=density*volume 8.6mL is volume .997g/mL is density
The mass of the plate will depend on its density. To find the mass, multiply the density by the volume, which in this case is 5/3 cubic feet.?æ
Density = mass(in grams)/volume ( volume in centimeters cubed. cc ) 9.6 kilograms = 9600 grams 15 cm^3 = 3375 cc Density = 9600 grams/3375 cc = 2.84 grams/cubic centimeters ( or milliliters) ( real density of iron is 7.86 g/ml )
This is clearly a piece of wood that is forcibly submerged since its density would require it to float. So the volume of displaced water should be equal to the volume of the whole piece of wood. Then, density = mass/volume = 62/0.525 g/L = 62/525 g/ml = 0.12 g/ml which is a lot less dense than balsa (0.16 g/ml)!
Its is 10 cm³ hun
Density is independent of the amount of material in a sample. A sample of a homogeneous substance used to find the density can have any volume. If a cm3 of the substance weighs 8.1 grams, then 10 cm3 will weigh 81.0 grams.We might consider water in a glass or bottle as an example. A small sample will have a given weight (mass) because water has a given density. Ten times that sample volume will have ten times the mass of that volume of water. The density of water does not change if we examine water in a small glass and another sample of the same water in a gallon jug.
Density is a weight per unit volume calculation. There could be different alloys or casting methods with subtle differences in density, or temperature variations in expansion and density. However: Every cubic centimeter of lead weighs 11.34 grams. Every cubic centimeter of iron weighs 7.86 grams. Thus, the density of lead (11.34 g/cc) is greater than iron (7.86 g/cc). This is independent of the actual weight and volume of the sample.
Mass is how much a thing weighs, Volume is how much space it takes up, and Density is how much it weighs per unit volume and is calculated as mass/volume
In a gas, for a given amount of matter, density absolutely depends on volume. For liquids and solids, they occupy given volumes, and it is necessary extraordinarily strong compressions to induce even a modest change in volume. However, solids and liquids are somewhat susceptible to temperature and density does depend slightly on it.
You cannot associate weight with volume without knowing the density. If you find this out, then Density is mass/volume
Density is mass per unit volume. If 10 cm3 weighs 20g, the density is 2 g/cc.
just give me the answer
density = mass / volume 1mL = 1cm3 Therefore for this example: density = 3.64/0.687 = 5.298g/cm3
Density = mass/volume. Density(A) = 40.2/5.7 = 7.05 gcm-3 Density(B) = 42.0/6.3 = 6.67 gcm-3 So B is less dense.
Well it's kind of hard since Density is a MATHEMATICAL concept, not an ENGLISH concept. Oversimplifcation: Density is a comparison between how much a sample of something weighs compared to its size. If a small size sample is heavy, then it has high Density. If a large size sample is light, then it has low Density.
If it weighs 0.25 lb on Earth, then its mass is 113.4 grams. Density = mass/volume = 113.4/130.3 = 0.87 gm/cm3