Input interpretation
![Lewis acids | melting point](../image_source/5b71c63b100ae835abacae287b4e871a.png)
Lewis acids | melting point
Summary
![median | -25 °C highest | 1040 °C (aluminum fluoride) lowest | -164.85 °C (diborane) distribution | | (based on 9 values; 1 unavailable)](../image_source/03e6b560f9a1a151c6d310bf026627db.png)
median | -25 °C highest | 1040 °C (aluminum fluoride) lowest | -164.85 °C (diborane) distribution | | (based on 9 values; 1 unavailable)
Entity with missing value
![triphenylborane](../image_source/a7a44ce6a74056fb1223f688013c00b5.png)
triphenylborane
Distribution plots
![(melting point in degrees Celsius)](../image_source/eed64e21a8c1a5ab1a97f495c0db8079.png)
(melting point in degrees Celsius)
Melting point rankings
![1 | diborane | -164.85 °C 2 | boron trifluoride | -127 °C 3 | silicon tetrafluoride | -90.2 °C 4 | stannic chloride | -33 °C 5 | titanium tetrachloride | -25 °C 6 | sulfur trioxide | 16.8 °C 7 | aluminum chloride | 190 °C 8 | iron(III) chloride | 304 °C 9 | aluminum fluoride | 1040 °C (based on 9 values; 1 unavailable)](../image_source/1cf53ebd9b4acacff4ed08afec8ac4f0.png)
1 | diborane | -164.85 °C 2 | boron trifluoride | -127 °C 3 | silicon tetrafluoride | -90.2 °C 4 | stannic chloride | -33 °C 5 | titanium tetrachloride | -25 °C 6 | sulfur trioxide | 16.8 °C 7 | aluminum chloride | 190 °C 8 | iron(III) chloride | 304 °C 9 | aluminum fluoride | 1040 °C (based on 9 values; 1 unavailable)
Unit conversions for median melting point -25 °C
![248.2 K (kelvins)](../image_source/f652eb14c5b99d94e004c47c3b8ada84.png)
248.2 K (kelvins)
![-13 °F (degrees Fahrenheit)](../image_source/3fbc3330ea40df089ab94d88361c067f.png)
-13 °F (degrees Fahrenheit)
![446.7 °R (degrees Rankine)](../image_source/9a61ef46d1ae2a2a526281f1b2ea537f.png)
446.7 °R (degrees Rankine)
![-20 °Ré (degrees Réaumur)](../image_source/74ab4ea04ac81cf70472c72e508b19b7.png)
-20 °Ré (degrees Réaumur)
![-5.625 °Rø (degrees Rømer)](../image_source/81080667f43e69940f8f3d8bc31876f1.png)
-5.625 °Rø (degrees Rømer)
Comparison for median melting point -25 °C
![40 °C below temperature at STP (standard temperature and pressure), using the convention of European and South American natural gas companies (15 °C)](../image_source/328f843ec30ce09960b5fc1d851d86cb.png)
40 °C below temperature at STP (standard temperature and pressure), using the convention of European and South American natural gas companies (15 °C)
![25 °C below temperature at STP (standard temperature and pressure), using the International Union of Pure and Applied Chemistry convention (0 °C)](../image_source/4c8b59ed70ab65a83fa7a6afb5c33613.png)
25 °C below temperature at STP (standard temperature and pressure), using the International Union of Pure and Applied Chemistry convention (0 °C)
![7.222 °C below temperature of the ice/salt mixture defining the zero point of the Fahrenheit temperature scale (0 °F)](../image_source/74782ac69764f14389e9e8b74239df02.png)
7.222 °C below temperature of the ice/salt mixture defining the zero point of the Fahrenheit temperature scale (0 °F)
Corresponding quantities
![Thermodynamic energy E from E = kT: | 21 meV (millielectronvolts)](../image_source/f002c4162f0c6fd8aa51b2d86e0a9c0a.png)
Thermodynamic energy E from E = kT: | 21 meV (millielectronvolts)
![Blackbody energy flux Φ from Φ = σT^4: | 215 W/m^2 (watts per square meter)](../image_source/2cc342a63e192d7e58a3a1b673faedb0.png)
Blackbody energy flux Φ from Φ = σT^4: | 215 W/m^2 (watts per square meter)
![Approximate luminous exitance from a planar blackbody radiator perpendicular to its surface: | 2.5×10^-27 lx (lux)](../image_source/8fd001a792934e84cd179bf32a4f54d0.png)
Approximate luminous exitance from a planar blackbody radiator perpendicular to its surface: | 2.5×10^-27 lx (lux)