Input interpretation
![rare earth metals | thermal expansion](../image_source/0100ceda2086642989b78ca5b4aabc16.png)
rare earth metals | thermal expansion
Summary
![median | 1.06×10^-5 K^(-1) highest | 3.5×10^-5 K^(-1) (europium) lowest | 6.3×10^-6 K^(-1) (cerium) distribution |](../image_source/1fd9d3833be2d38a733443601c6316b2.png)
median | 1.06×10^-5 K^(-1) highest | 3.5×10^-5 K^(-1) (europium) lowest | 6.3×10^-6 K^(-1) (cerium) distribution |
Units
Distribution plots
![(thermal expansion in reciprocal kelvins difference)](../image_source/574e58f89ecda02aacafbb65871fdb59.png)
(thermal expansion in reciprocal kelvins difference)
Thermal expansion rankings
![1 | cerium | 6.3×10^-6 K^(-1) 2 | praseodymium | 6.7×10^-6 K^(-1) 3 | gadolinium | 9.4×10^-6 K^(-1) 4 | neodymium | 9.6×10^-6 K^(-1) 5 | lutetium | 9.9×10^-6 K^(-1) 6 | dysprosium | 9.9×10^-6 K^(-1) 7 | scandium | 1.02×10^-5 K^(-1) 8 | terbium | 1.03×10^-5 K^(-1) 9 | yttrium | 1.06×10^-5 K^(-1) 10 | holmium | 1.12×10^-5 K^(-1) 11 | promethium | 1.1×10^-5 K^(-1) 12 | lanthanum | 1.21×10^-5 K^(-1) 13 | erbium | 1.22×10^-5 K^(-1) 14 | samarium | 1.27×10^-5 K^(-1) 15 | thulium | 1.33×10^-5 K^(-1) 16 | ytterbium | 2.63×10^-5 K^(-1) 17 | europium | 3.5×10^-5 K^(-1)](../image_source/c03cc2e8f84ad48887059c6fad074c85.png)
1 | cerium | 6.3×10^-6 K^(-1) 2 | praseodymium | 6.7×10^-6 K^(-1) 3 | gadolinium | 9.4×10^-6 K^(-1) 4 | neodymium | 9.6×10^-6 K^(-1) 5 | lutetium | 9.9×10^-6 K^(-1) 6 | dysprosium | 9.9×10^-6 K^(-1) 7 | scandium | 1.02×10^-5 K^(-1) 8 | terbium | 1.03×10^-5 K^(-1) 9 | yttrium | 1.06×10^-5 K^(-1) 10 | holmium | 1.12×10^-5 K^(-1) 11 | promethium | 1.1×10^-5 K^(-1) 12 | lanthanum | 1.21×10^-5 K^(-1) 13 | erbium | 1.22×10^-5 K^(-1) 14 | samarium | 1.27×10^-5 K^(-1) 15 | thulium | 1.33×10^-5 K^(-1) 16 | ytterbium | 2.63×10^-5 K^(-1) 17 | europium | 3.5×10^-5 K^(-1)
Unit conversions for median thermal expansion 1.06×10^-5 K^(-1)
![1.06×10^-5 °C^(-1) (reciprocal degrees Celsius difference)](../image_source/a74c42f3c60367b4d39c04f59eab7419.png)
1.06×10^-5 °C^(-1) (reciprocal degrees Celsius difference)
![5.89×10^-6 °F^(-1) (reciprocal degrees Fahrenheit difference)](../image_source/4ac78e5831d93bd21d298ff5e6c4fab8.png)
5.89×10^-6 °F^(-1) (reciprocal degrees Fahrenheit difference)
Comparisons for median thermal expansion 1.06×10^-5 K^(-1)
![≈ 0.75 × gold linear thermal expansion coefficient ( ≈ 1.4×10^-5 K^(-1) )](../image_source/fccf7a9a79c0a0ddc3bf433db68e19b9.png)
≈ 0.75 × gold linear thermal expansion coefficient ( ≈ 1.4×10^-5 K^(-1) )
![≈ 0.9 × iron linear thermal expansion coefficient ( ≈ 1.2×10^-5 K^(-1) )](../image_source/35b4a1ba75ef01cd833a8fda86c45b2d.png)
≈ 0.9 × iron linear thermal expansion coefficient ( ≈ 1.2×10^-5 K^(-1) )
![≈ linear thermal expansion coefficient of graphite (parallel to graphite planes) ( ≈ 7×10^-6 K^(-1) )](../image_source/3cb66073de270ff14811875b6e89af55.png)
≈ linear thermal expansion coefficient of graphite (parallel to graphite planes) ( ≈ 7×10^-6 K^(-1) )