Input interpretation
![solid elements (at STP) | superconducting point](../image_source/9bcacc53ca9428dd59519be4a484f4ca.png)
solid elements (at STP) | superconducting point
Summary
![median | 0.999 K highest | 9.25 K (niobium) lowest | 0.015 K (tungsten) distribution | | (based on 32 values; 54 unavailable)](../image_source/7b81aadea0ebc3fcbe7a3bfeb16d14d4.png)
median | 0.999 K highest | 9.25 K (niobium) lowest | 0.015 K (tungsten) distribution | | (based on 32 values; 54 unavailable)
Entities with missing values
![lithium | boron | carbon | sodium | magnesium | silicon | phosphorus | sulfur | potassium | calcium | ... (total: 54)](../image_source/4fbd1e7b37577e330a502f8f86ddf291.png)
lithium | boron | carbon | sodium | magnesium | silicon | phosphorus | sulfur | potassium | calcium | ... (total: 54)
Distribution plots
![(superconducting point in kelvins)](../image_source/a1b9cfcf4f9ac91fb5627fa093dbbf27.png)
(superconducting point in kelvins)
Superconducting point rankings
![1 | tungsten | 0.015 K 2 | cerium | 0.022 K 3 | beryllium | 0.026 K 4 | scandium | 0.05 K 5 | lutetium | 0.1 K 6 | iridium | 0.11 K 7 | hafnium | 0.128 K 8 | titanium | 0.4 K 9 | ruthenium | 0.49 K 10 | cadmium | 0.517 K ⋮ | | 23 | europium | 1.8 K 24 | thallium | 2.38 K 25 | indium | 3.41 K 26 | tin | 3.72 K 27 | tantalum | 4.47 K 28 | lanthanum | 4.88 K 29 | vanadium | 5.4 K 30 | lead | 7.2 K 31 | technetium | 7.8 K 32 | niobium | 9.25 K (based on 32 values; 54 unavailable)](../image_source/95231ef215b6403ed4975275309ef08b.png)
1 | tungsten | 0.015 K 2 | cerium | 0.022 K 3 | beryllium | 0.026 K 4 | scandium | 0.05 K 5 | lutetium | 0.1 K 6 | iridium | 0.11 K 7 | hafnium | 0.128 K 8 | titanium | 0.4 K 9 | ruthenium | 0.49 K 10 | cadmium | 0.517 K ⋮ | | 23 | europium | 1.8 K 24 | thallium | 2.38 K 25 | indium | 3.41 K 26 | tin | 3.72 K 27 | tantalum | 4.47 K 28 | lanthanum | 4.88 K 29 | vanadium | 5.4 K 30 | lead | 7.2 K 31 | technetium | 7.8 K 32 | niobium | 9.25 K (based on 32 values; 54 unavailable)
Unit conversions for median superconducting point 0.999 K
![-272.151 °C (degrees Celsius)](../image_source/92c2a68c1a6729a220fb49594b20e4dc.png)
-272.151 °C (degrees Celsius)
![-457.872 °F (degrees Fahrenheit)](../image_source/b2feb748385ec48f00a9931211a1e07f.png)
-457.872 °F (degrees Fahrenheit)
![1.8 °R (degrees Rankine)](../image_source/8fbd1f6c38e37be5c1a40e2d7f803bfc.png)
1.8 °R (degrees Rankine)
![-217.721 °Ré (degrees Réaumur)](../image_source/ae23d73e325e648e162f05601ebe5053.png)
-217.721 °Ré (degrees Réaumur)
![-135.379 °Rø (degrees Rømer)](../image_source/4c81e81dc7e8f420667fc71f68bc3030.png)
-135.379 °Rø (degrees Rømer)
Comparison for median superconducting point 0.999 K
![0.999 K above temperature of a typical evaporation-cooled Bose-Einstein condensate (7×10^-8 K)](../image_source/d968b51bad4b0e16457853a52d9e9380.png)
0.999 K above temperature of a typical evaporation-cooled Bose-Einstein condensate (7×10^-8 K)
![0.999 K above lowest temperature sodium Bose-Einstein condensate gas ever achieved in the laboratory (at MIT) (450 pK)](../image_source/74c8ae203c4a558e448c68af8c96bd0e.png)
0.999 K above lowest temperature sodium Bose-Einstein condensate gas ever achieved in the laboratory (at MIT) (450 pK)
![0.999 K above absolute zero (0 K)](../image_source/68b9feb496ea4077a8dd49cf99962731.png)
0.999 K above absolute zero (0 K)
Corresponding quantity
![Thermodynamic energy E from E = kT: | 0.086 meV (millielectronvolts)](../image_source/ffe12969250633def52fd6da84129ff9.png)
Thermodynamic energy E from E = kT: | 0.086 meV (millielectronvolts)