Discussion
Heat conduction (as opposed to electrical conduction) is the flow of internal energy from a region of higher temperature to one of lower temperature by the interaction of the adjacent particles (atoms, molecules, ions, electrons, etc.) in the intervening space.
Note: it's therate (P orΦ orq orQ̇) at which heat is transferred, not theamount (Q) of heat transferred.
Factors affecting the rate of heat transfer by conduction.
- temperature difference
- length
- cross-sectional area
- material
Fourier's law (compare to Ohm's law).
Conductivities vary for material being greatest for metallic solids, lower for nonmetallic solids, very low for liquids, and extremely low for gases. The best ordinary metallic conductors are (in decreasing order) silver, copper, gold, aluminum, beryllium, and tungsten. Diamond beats them all, and graphite beats diamond only if the heat can be forced to conduct in a direction parallel to the crystal layers. The material with the greatest thermal conductivity is a superfluid form of liquid helium called helium II, which only exists at temperatures below 2.17 K. Since it's highly unlikely you will encounter this substance, it's not worth thinking about except in the fact that it is an exceptional material.
Thermal conductivity for selected materials (~300 K except where otherwise indicated)
| material | k (W/m K) |
|---|
| air, sea level | 0.025 |
| air, 10,000 m | 0.020 |
| aluminum | 237 |
| asbestos | 0.05–0.15 |
| asphalt | 0.15–0.52 |
| brass (273 K) | 120 |
| brick | 0.18 |
| bronze (273 K) | 110 |
| carbon, diamond | 895 |
| carbon, graphite ∥ | 400–1700 |
| carbon, graphite ⊥ | 5.7 |
| carpet | 0.03–0.08 |
| chromium | 93.7 |
| concrete | 0.05–1.50 |
| copper | 401 |
| cotton | 0.04 |
| feathers | 0.034 |
| fiberglas | 0.035 |
| freon 12, liquid | 0.0743 |
| freon 12, vapor | 0.00958 |
| felt | 0.06 |
| glass | 1.1–1.2 |
| gold | 317 |
| granite | 2.2 |
| helium gas | 0.152 |
| helium I (< 4.2 K) | 0.0307 |
| helium II (< 2.2 K) | ~100,000? |
| ice cream powder | 0.05 |
| iron | 80.2 |
| lead | 35.3 |
| limestone | 1 |
| marble | 1.75 |
| mercury | 8.34 |
| mica | 0.26 |
| mylar | 0.0001? |
| material | k (W/m K) |
|---|
| neoprene | 0.15–0.45 |
| nickel | 90.7 |
| particle board | 0.15 |
| paper | 0.04–0.09 |
| plaster | 0.15–0.27 |
| platinum | 71.6 |
| plutonium | 6.74 |
| plywood | 0.11 |
| polyester | 0.05 |
| polystyrene foam | 0.03–0.05 |
| polyurethane foam | 0.02–0.03 |
| sand | 0.27 |
| silica aerogel | 0.026 |
| silver | 429 |
| soap powder | 0.11 |
| snow (< 273 K) | 0.16 |
| steel, plain (273 K) | 45–65 |
| steel, stainless (273 K) | 14 |
| straw | 0.05 |
| teflon | 0.25 |
| tin | 66.6 |
| titanium | 21.9 |
| tungsten | 174 |
| uranium | 27.6 |
| vacuum | 0 |
| water, ice (223 K) | 2.8 |
| water, ice (273 K) | 2.2 |
| water, liquid (273 K) | 0.561 |
| water, liquid (373 K) | 0.679 |
| water, vapor (273 K) | 0.016 |
| water, vapor (373 K) | 0.025 |
| wood | 0.09–0.14 |
| wool | 0.03–0.04 |
| zinc | 116 |
| zirconia | 0.056? |
Thoughts on conductivity…
- The preferred utensil for candy making is the wooden spoon. Metal utensils conduct heat away and interfere with controlled crystallization.
- Why are toilet seats cold even if the air in the bathroom isn't?
- Why do some Inuit peoples build shelters (igloos) out of snow? Isn't snow cold?
Related quantities:R value.
Comparison.
Theclo. Studies of clothing have lead to the definition of the unit of clothing, which corresponds to the insulating value of clothing needed to maintain a subject in comfort sitting at rest in a room at 21 °C (70 °F) with air movement of 0.1 m/s and humidity less than 50%. One clo of insulation is equivalent to a lightweight business suit. Half of the planet would probably disagree with the relevance of this unit.
Newton's law of coolingQ/t ∝ ∆T. Heat leaks faster from a cool house than a warm house. Thus, it's more cost effective to turn your air conditioner off when you're away, than to leave it on hoping to keep your house cool.
