Input interpretation
![aluminum | thermal expansion](../image_source/ca75e8740a062a70aa21aa4549eade2a.png)
aluminum | thermal expansion
Result
![2.31×10^-5 K^(-1) (reciprocal kelvins difference)](../image_source/c8c7f1973f369e5e2b526d4fb742cac8.png)
2.31×10^-5 K^(-1) (reciprocal kelvins difference)
Unit conversions
![2.31×10^-5 °C^(-1) (reciprocal degrees Celsius difference)](../image_source/7a0025cc49a632f5025b997e904b5a37.png)
2.31×10^-5 °C^(-1) (reciprocal degrees Celsius difference)
![1.28×10^-5 °F^(-1) (reciprocal degrees Fahrenheit difference)](../image_source/8776253d5cd8cca0bff6cd77ada3f2a2.png)
1.28×10^-5 °F^(-1) (reciprocal degrees Fahrenheit difference)
Comparisons as linear coefficient of thermal expansion
![≈ 0.8 × lead linear thermal expansion coefficient ( ≈ 2.9×10^-5 K^(-1) )](../image_source/96d574a93760ea287a33110224206dcf.png)
≈ 0.8 × lead linear thermal expansion coefficient ( ≈ 2.9×10^-5 K^(-1) )
![≈ 1.6 × gold linear thermal expansion coefficient ( ≈ 1.4×10^-5 K^(-1) )](../image_source/ce4fdc488d1a6239eebedd68d7f11be4.png)
≈ 1.6 × gold linear thermal expansion coefficient ( ≈ 1.4×10^-5 K^(-1) )
![≈ 2 × iron linear thermal expansion coefficient ( ≈ 1.2×10^-5 K^(-1) )](../image_source/c7662ba0802c83169124eca8cd80b28c.png)
≈ 2 × iron linear thermal expansion coefficient ( ≈ 1.2×10^-5 K^(-1) )