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After Earth, Mercury is he densest body in the solar system. This high density is due to the fact that the majority of Mercury's interior is probably composed of a large, iron core.
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When you have a piece of a substance, its mass and volume have to be measured.After you've done that, you can calculate the density ... it's (mass) divided by (volume).It doesn't matter whether the sample you have is large or small. The densitywill be the same.
That depends. If the two different silver masses contain different impurities, then the answer is yes, but it would very only slightly so as to be almost negligible. In general, any two or more objects that are made up of the same substance have the exact same density. The size of the sample is not a factor of its density (assuming the size increase is not due to heat), since density = mass/volume.
Yes, its does ! :)
Density is weight per volume. It does not change because the size of the specimen changed. The total weight will increase, but not the density.
Any sample of the same substance has the same density,no matter how large or small the sample is.
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.
Solubility and density
After Earth, Mercury is he densest body in the solar system. This high density is due to the fact that the majority of Mercury's interior is probably composed of a large, iron core.
Nothing happens to the density. It's a property of the . The density is the same regardless of how large a piece you have. That's why density is a useful concept. It tells you something that's true of the regardless of what size sample you're holding.A large block of ice has the same density as a small ice cube.The 49¢ sample of Acme soap has the same density as the $1.49 family-size bar of Acme soap.
i think a large droplet is bigger because they say larger
The small blood droplet would have a greater terminal velocity. The smaller droplet has a smaller surface area, thus suffers less air resistance.
If the material is pure and homogeneous, i.e. "the same throughout", then the density is independent of the size of the sample. A chip the size of a pinhead and a chunk the size of a truck have the same density.
All intrinsic properties will be the same regardless of sample size. Some examples would be density, color, temperature, chemical reactivity, etc.
No. It's a a tiny drop, actually.
coalescence