Volume Expansion
The formula used to calculate the amount of volume expansion a solid experiences when there is a change in temperature is
ΔV = βVΔT
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β is the coefficient of volume expansion (m-3)
For solids, β is approximately equal to 3α. This value seems reasonable since a solid expands equally in all three dimensions and α is the coefficient of linear expansion. For liquids and gases, there are only coefficients of volume expansion. In the case of gases, these coefficients principally depend on whether the gas is monatomic, diatomic, or polyatomic.
Some common coefficients of expansion are given in the following table.
material |
α x 106 |
β x 106 |
diamonds |
1.2 |
3.5 |
iron/steel |
12 |
36 |
brass |
19 |
57 |
aluminum |
25 |
75 |
mercury |
|
182 |
gasoline |
|
~950 |
Ice
When most objects absorb heat, they usually expand; ice and water are exceptions. Due to the open-lattice structure of ice crystals, and the fact that the hydrogen bonds are strongest at particular angles, the volume of a certain amount of water in its solid (frozen) state is greater than its volume in its liquid (water) state. That is why ice floats on water. When frozen, ice's lower mass density results in the buoyant force of the surrounding water being greater than the weight of the ice cube. This accounts for floating icebergs and ice cubes.
As the ice beings to melt, the crystalline structure breaks down, initially creating a microscopic slush. This mixture of ice and water dramatically reduces the space between the water molecules, at about 10 ºC, all of the ice's crystalline structure has collapsed. At the same time as the ice crystals are collapsing, the rising temperature is increasing the molecular motion of the water molecules, resulting in expansion. These combined effects of contraction and expansion, result in water achieving its highest density at 4 ºC.
In its liquid state, the hydrogen bonds between the water molecules results in water achieving its maximum density at 4 ºC. This allows large bodies of water to never freeze solid since convection currents result in the bottom of the lakes or oceans remaining at 4 ºC. The top of the lake or ocean may be frozen, but in their depths, water is still present in its liquid state. Remember also that water's very high specific heat and the fact that it is a poor conductor of heat ensures Florida's and Hawaii's temperate climates,
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