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Materials become denser as they get colder, unless, like ice, some other molecular force makes them less dense. Solids are denser than liquids, which are denser than gases. The colder a solid is, the more dense it becomes because each molecule's energy, which helps it repel the others, is less.
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When this material is placed in a container of water it sinks to the bottom of the container compared to the density of water the density of material is?
The density of the material is greater than the density of water because it sinks to the bottom of the container. Objects with a density greater than that of water will sink in water.
Where is the density of the material greater at point A or B Explain why.?
The density of the material is greater at point B because it has a larger mass in the given volume compared to point A. Density is calculated as mass divided by volume, so the greater mass at point B results in a higher density there.
When this material is placed in a container of water it sinks to the bottom of the container compared to the density of water the density of the material is?
The density of the material is greater than the density of water if it sinks to the bottom of the container when placed in water.
Light travels slower in a material with greater what?
Light travels slower in a material with greater optical density.
Why is the density of the mantle material greater at point A?
The density of mantle material is greater at point A due to the increase in pressure at greater depths within the Earth. As depth increases, the materials experience more compression, leading to a denser structure. This higher density contributes to the differentiation and layering of the Earth's interior.
When this material is placed in a container of water it sinks to the bottom of the container compared to the density of water the density of material is?
The density of the material is greater than the density of water because it sinks to the bottom of the container. Objects with a density greater than that of water will sink in water.
When materials density is greater than waters density the material will?
Sink.
Which material has greater density lead or feathers?
Lead
Where is the density material greater at point b or point c?
the density will be greater at point B because my mommy says
Where is the density of the material greater at point A or B Explain why.?
The density of the material is greater at point B because it has a larger mass in the given volume compared to point A. Density is calculated as mass divided by volume, so the greater mass at point B results in a higher density there.
When this material is placed in a container of water it sinks to the bottom of the container compared to the density of water the density of the material is?
The density of the material is greater than the density of water if it sinks to the bottom of the container when placed in water.
Light travels slower in a material with greater what?
Light travels slower in a material with greater optical density.
Where is the density material greater at point a or b?
It depends on the material and the location of points a and b.
Where is the density of the mantle material greater at point A or point B?
at point A
Which has a greater density water or a rod?
It depends on what material the rod composed of.
Why is the density of the mantle material greater at point A?
The density of mantle material is greater at point A due to the increase in pressure at greater depths within the Earth. As depth increases, the materials experience more compression, leading to a denser structure. This higher density contributes to the differentiation and layering of the Earth's interior.
How is density used to determine if a material will float or sink in a liquid?
Density is used to determine if a material will float or sink in a liquid by comparing the density of the material to the density of the liquid. If the material has a greater density than the liquid, it will sink. If the material has a lower density than the liquid, it will float. Objects float when they displace an amount of liquid equal to their own weight.
