Input interpretation
![group 9 elements | superconducting point](../image_source/769d678cc5f78131466dfecb2abb1d95.png)
group 9 elements | superconducting point
Results
![cobalt | (unknown) rhodium | (data not available) iridium | 0.11 K (kelvins) meitnerium | (data not available)](../image_source/c863c6a03d5326fa36460d8bbabd4b79.png)
cobalt | (unknown) rhodium | (data not available) iridium | 0.11 K (kelvins) meitnerium | (data not available)
![group 9 elements | superconducting point | 0.11 K (kelvins) (median) (based on 1 values; 3 unavailable)](../image_source/e7e41f135275ad0106697435c8876554.png)
group 9 elements | superconducting point | 0.11 K (kelvins) (median) (based on 1 values; 3 unavailable)
Unit conversions for median superconducting point 0.11 K
![-273.04 °C (degrees Celsius)](../image_source/64cb03aaa3bfbb7fd07b14a8fcc637a5.png)
-273.04 °C (degrees Celsius)
![-459.47 °F (degrees Fahrenheit)](../image_source/1664f6f00f179baa4e7d571ed40c7e8a.png)
-459.47 °F (degrees Fahrenheit)
![0.2 °R (degrees Rankine)](../image_source/1584bbd155d6167fe5ab302a65f7e589.png)
0.2 °R (degrees Rankine)
![-218.43 °Ré (degrees Réaumur)](../image_source/3937c7f6348abac1712b393809f9557e.png)
-218.43 °Ré (degrees Réaumur)
![-135.85 °Rø (degrees Rømer)](../image_source/e60519e61fb761dd6dd6291b8d2c0ed4.png)
-135.85 °Rø (degrees Rømer)
Comparison for median superconducting point 0.11 K
![0.11 K above temperature of a typical evaporation-cooled Bose-Einstein condensate (7×10^-8 K)](../image_source/d9aeb2c5dd87a6fada17a110d2e440c7.png)
0.11 K above temperature of a typical evaporation-cooled Bose-Einstein condensate (7×10^-8 K)
![0.11 K above lowest temperature sodium Bose-Einstein condensate gas ever achieved in the laboratory (at MIT) (450 pK)](../image_source/d0be4c011e5334e7f361141d33078a87.png)
0.11 K above lowest temperature sodium Bose-Einstein condensate gas ever achieved in the laboratory (at MIT) (450 pK)
![0.11 K above absolute zero (0 K)](../image_source/8513912f91d56c3be4b7e971508751e9.png)
0.11 K above absolute zero (0 K)
Corresponding quantity
![Thermodynamic energy E from E = kT: | 9.5×10^-6 eV (electronvolts)](../image_source/0f94ddf17a9b11524f0c5911462c5907.png)
Thermodynamic energy E from E = kT: | 9.5×10^-6 eV (electronvolts)