Input interpretation
![heavy molecules | freezing point](../image_source/1013f95a7288c12fd4d1c96a3a9382fc.png)
heavy molecules | freezing point
Summary
![median | -98 °C highest | 16.2 °C (acetic acid-13 C2) lowest | -259.2 °C (deuterium hydride) distribution |](../image_source/fea2ccf644558604e9542cd3b3a23ab5.png)
median | -98 °C highest | 16.2 °C (acetic acid-13 C2) lowest | -259.2 °C (deuterium hydride) distribution |
Distribution plots
![(freezing point in degrees Celsius)](../image_source/e7b57f524caf75e23718da2171335e5f.png)
(freezing point in degrees Celsius)
Freezing point rankings
![1 | deuterium hydride | -259.2 °C 2 | deuterated silane | -185 °C 3 | allyl-d 5alcohol | -129 °C 4 | acetaldehyde-2, 2, 2-d 3 | -125 °C 5 | trimethylamine-15 N | -117 °C 6 | ethanol-1-13 C | -114 °C 7 | ethylene oxide-13 C2 | -111 °C 8 | methyl (-{2}-h)formate | -100 °C 9 | methanol-d | -98 °C 10 | methanol-13 C | -98 °C 11 | chloromethane-13 C | -97 °C 12 | acetone-2-13 C | -94 °C 13 | propionitrile-d 5 | -93 °C 14 | ammonia-15 N | -78 °C 15 | acetonitrile-1-13 C | -48 °C 16 | water-18 O | 0 °C 17 | formamide-13 C | 2.5 °C 18 | heavy water | 3.8 °C 19 | formic acid-13 C | 8.3 °C 20 | acetic acid-13 C2 | 16.2 °C](../image_source/41c6a19b043ef1196c154f455a59ae1d.png)
1 | deuterium hydride | -259.2 °C 2 | deuterated silane | -185 °C 3 | allyl-d 5alcohol | -129 °C 4 | acetaldehyde-2, 2, 2-d 3 | -125 °C 5 | trimethylamine-15 N | -117 °C 6 | ethanol-1-13 C | -114 °C 7 | ethylene oxide-13 C2 | -111 °C 8 | methyl (-{2}-h)formate | -100 °C 9 | methanol-d | -98 °C 10 | methanol-13 C | -98 °C 11 | chloromethane-13 C | -97 °C 12 | acetone-2-13 C | -94 °C 13 | propionitrile-d 5 | -93 °C 14 | ammonia-15 N | -78 °C 15 | acetonitrile-1-13 C | -48 °C 16 | water-18 O | 0 °C 17 | formamide-13 C | 2.5 °C 18 | heavy water | 3.8 °C 19 | formic acid-13 C | 8.3 °C 20 | acetic acid-13 C2 | 16.2 °C
Unit conversions for median freezing point -98 °C
![175.2 K (kelvins)](../image_source/50e61127e8196fe10a9b9c495accf1af.png)
175.2 K (kelvins)
![-144.4 °F (degrees Fahrenheit)](../image_source/95cdc19c46549d1944c45cd0e9a1c8b5.png)
-144.4 °F (degrees Fahrenheit)
![315.3 °R (degrees Rankine)](../image_source/a0492183c1ba851d398e7d28685903cd.png)
315.3 °R (degrees Rankine)
![-78.4 °Ré (degrees Réaumur)](../image_source/c5d9fb2d25369436296072b235dd21b2.png)
-78.4 °Ré (degrees Réaumur)
![-43.95 °Rø (degrees Rømer)](../image_source/d385f528e87393ba65a277989ace46b0.png)
-43.95 °Rø (degrees Rømer)
Comparison for median freezing point -98 °C
![20 °C below boiling point of dry ice-acetone slurry (-78 °C)](../image_source/52c504d6de5a43dbad704cb6ef0d5b20.png)
20 °C below boiling point of dry ice-acetone slurry (-78 °C)
![19.45 °C below sublimation temperature of dry ice (carbon dioxide) (194.6 K)](../image_source/91fb071c288490ebc34b994227310be8.png)
19.45 °C below sublimation temperature of dry ice (carbon dioxide) (194.6 K)
![3.3 °C below coldest recorded temperature on Earth (-94.7 °C)](../image_source/ce0eda186f3d486d709a29ca2589ee63.png)
3.3 °C below coldest recorded temperature on Earth (-94.7 °C)
Corresponding quantities
![Thermodynamic energy E from E = kT: | 15 meV (millielectronvolts)](../image_source/5ec99e6c1292707bbe5303739a4fe625.png)
Thermodynamic energy E from E = kT: | 15 meV (millielectronvolts)
![Blackbody energy flux Φ from Φ = σT^4: | 53 W/m^2 (watts per square meter)](../image_source/1946ccfc06a66cae12647a2880cc35f4.png)
Blackbody energy flux Φ from Φ = σT^4: | 53 W/m^2 (watts per square meter)
![Approximate luminous exitance from a planar blackbody radiator perpendicular to its surface: | 3.4×10^-41 lx (lux)](../image_source/f44cf7c0fb983f8a500b2b0670db9628.png)
Approximate luminous exitance from a planar blackbody radiator perpendicular to its surface: | 3.4×10^-41 lx (lux)