The clearest answer I've heard to date is that the coefficient is 0.00046 per degree Fahrenheit. That is to say that for every degree rise in temperature your volume will go up that amount. The math works like this, say you have a temperature rise from 60 degrees f to 84 f over the course of a day and a tank with 100 gallons of diesel in it. Multiply the coefficient by the number of degrees temp rise (24 x 0.00046=0.01104) then multiply that answer by the total number of gallons you started with to get the number of gallons increase in the tank when the diesel warmed up to 84 degrees (0.01104 x 100=1.104 gal.)
Remember the liquid itself has to rise in temperature and it may take a long time to do but this is a handy way to figure the amount of room to leave in a tank for expansion.
The Cubical Coefficient of Thermal Expansion for gasoline is approximately 0.000950/degree Celsius. However, calculations for volume of fuel, including gasoline, are usually based upon American Petroleum Institute (API) Tables. The table that shows proper coefficients for gasoline and diesel fuel is API Table 54. To use the table effectively, you must know the density of the fuel. Nominal densities (approximate) gasoline = 730 kg/m3 diesel fuel = 840 kg/m3
The Thermal expansion of oil is called Dilatation and is
Beta = 0.0007 (C-1)
Change in Volume = Volume * Beta * Change in Temp
Roughly 1% change in Volume per 14C.
All gases well above their boiling point have the same coefficient of volume expansion, which is about 1/273.15 of its volume at 00C per 0C rise in temperature
.00045
0.00085
Linear expansion apparatus is the apparatus used to measure the objects to these following properties: -> coefficient linear expansion -> coefficient thermal expansion -> specific gravity -> specific heat -> thermal conductivity -> thermal resistivity -> breaking strength and many others..
5.4 x 10-6 . oC-1
The coefficient of the thermal expansion of water is equal to .00021. Water expands by 9% of its volume when it freezes.
The one with the higher coefficient of thermal expansion.
By knowing the coefficient of linear expansion of solids, you can determine how a solid reacts to temperature. Everything reacts to thermal expansion. For instance, a concrete bridge expands when hot, and with the formula for expansion and the coefficient for it, you know just how much that concrete expands and you can plan and build accordingly. That saves lives.
Why aluminium has high thermal expansion coefficient than Copper?"
0.0000055
thermal expansion depends on Temperature and material of steel
Linear expansion apparatus is the apparatus used to measure the objects to these following properties: -> coefficient linear expansion -> coefficient thermal expansion -> specific gravity -> specific heat -> thermal conductivity -> thermal resistivity -> breaking strength and many others..
Since most metals are isotropic, the cubical coefficient of expansion is three times the linear coefficient of expansion. The linear coefficient of expansion is obtained from measurement and tables for the specific material which are readily available.
0.00245 1/k
nickel
Thermal expanasion coefficient fro monel is 0,0000075 m/mºC. More info at http://www.engineeringtoolbox.com/linear-expansion-coefficients-d_95.html
The coefficient of thermal expansion of ethanol at 20 degrees Celsius, in volumetric terms, is 750*10-6 per Kelvin.The coefficient of thermal expansion of ethanol at 20 degrees Celsius, in volumetric terms, is 750*10-6 per Kelvin.The coefficient of thermal expansion of ethanol at 20 degrees Celsius, in volumetric terms, is 750*10-6 per Kelvin.The coefficient of thermal expansion of ethanol at 20 degrees Celsius, in volumetric terms, is 750*10-6 per Kelvin.
http://www.engineeringtoolbox.com/linear-expansion-coefficients-d_95.html
The coefficient of thermal expansion depends on the temperature and pressure. It a pressure of 1 atmosphere the coefficient of thermal expansion are:at 4 deg C : –0.1321 at 20 deg C : 0.1212 at 50 deg C : 0.4280 at 100 deg C: 0.7454.
Thermal expansion coefficient is how matter reacts to temperature, one of the best places to find information for free is at your local library in the encyclopedia or online in a few places, Wikipedia is often a good source for research, there are also various engineering sites that will show up from searching the words "thermal expansion coefficient" that will give the information,