Input interpretation
![f-block elements | melting point](../image_source/ba155f42d65bdbb462ef29317f1fea12.png)
f-block elements | melting point
Summary
![median | 1061 °C highest | 1750 °C (thorium) lowest | 640 °C (plutonium) distribution |](../image_source/f2b273ccf253ffd67e886e20410b1e0a.png)
median | 1061 °C highest | 1750 °C (thorium) lowest | 640 °C (plutonium) distribution |
Plot
![Plot](../image_source/24bac3acccc767502fd8dff4919f7d45.png)
Plot
Distribution plots
![(melting point in degrees Celsius)](../image_source/d02319a10020fc281c551a886f9d93ce.png)
(melting point in degrees Celsius)
Melting point rankings
![1 | plutonium | 640 °C 2 | neptunium | 644 °C 3 | cerium | 798 °C 4 | ytterbium | 819 °C 5 | europium | 822 °C 6 | nobelium | 827 °C 7 | mendelevium | 827 °C 8 | einsteinium | 860 °C 9 | californium | 900 °C 10 | lanthanum | 920 °C ⋮ | | 19 | gadolinium | 1313 °C 20 | curium | 1345 °C 21 | terbium | 1356 °C 22 | dysprosium | 1412 °C 23 | holmium | 1474 °C 24 | erbium | 1497 °C 25 | fermium | 1527 °C 26 | thulium | 1545 °C 27 | protactinium | 1572 °C 28 | thorium | 1750 °C](../image_source/b35ac8af8a7d9a509a728eb03352ecc6.png)
1 | plutonium | 640 °C 2 | neptunium | 644 °C 3 | cerium | 798 °C 4 | ytterbium | 819 °C 5 | europium | 822 °C 6 | nobelium | 827 °C 7 | mendelevium | 827 °C 8 | einsteinium | 860 °C 9 | californium | 900 °C 10 | lanthanum | 920 °C ⋮ | | 19 | gadolinium | 1313 °C 20 | curium | 1345 °C 21 | terbium | 1356 °C 22 | dysprosium | 1412 °C 23 | holmium | 1474 °C 24 | erbium | 1497 °C 25 | fermium | 1527 °C 26 | thulium | 1545 °C 27 | protactinium | 1572 °C 28 | thorium | 1750 °C
Unit conversions for median melting point 1061 °C
![1334 K (kelvins)](../image_source/799430f60271e0ae3f2a600f0303d070.png)
1334 K (kelvins)
![1942 °F (degrees Fahrenheit)](../image_source/970a86ecedc2396c9ba5236e1344b1bd.png)
1942 °F (degrees Fahrenheit)
![2401 °R (degrees Rankine)](../image_source/f5467ef396e07e80ea03e004d9bb12c4.png)
2401 °R (degrees Rankine)
![848.8 °Ré (degrees Réaumur)](../image_source/a821935d4d44295e188f054942c7df34.png)
848.8 °Ré (degrees Réaumur)
![564.5 °Rø (degrees Rømer)](../image_source/bd95f216c903c27bb08282e796c6fac1.png)
564.5 °Rø (degrees Rømer)
Comparison for median melting point 1061 °C
![239 °C below to 361 °C above typical temperature of magma (700 to 1300 °C)](../image_source/5a06c7a9f968cbc68e38baae9fe150aa.png)
239 °C below to 361 °C above typical temperature of magma (700 to 1300 °C)
![160 °C above large log fire temperature (1170 K)](../image_source/d953565c4b8e82355b49380a1da6d628.png)
160 °C above large log fire temperature (1170 K)
Blackbody information for median melting point 1061 °C (degrees Celsius)
![perceived color | peak wavelength | 2.172 µm (micrometers) peak frequency | 78.43 THz (terahertz)](../image_source/c7651a9267d3d0fb10332ee586aee47f.png)
perceived color | peak wavelength | 2.172 µm (micrometers) peak frequency | 78.43 THz (terahertz)
Corresponding quantities
![Thermodynamic energy E from E = kT: | 11 ceV (centielectronvolts)](../image_source/fabbad796837952b7ab0ac8430724680.png)
Thermodynamic energy E from E = kT: | 11 ceV (centielectronvolts)
![Blackbody energy flux Φ from Φ = σT^4: | 179651 W/m^2 (watts per square meter)](../image_source/909464c671d68a9398fa4a218e3edbc8.png)
Blackbody energy flux Φ from Φ = σT^4: | 179651 W/m^2 (watts per square meter)
![Approximate luminous exitance from a planar blackbody radiator perpendicular to its surface: | 3269 lx (lux)](../image_source/df9622db4fde765253b9e2a3546ce7dc.png)
Approximate luminous exitance from a planar blackbody radiator perpendicular to its surface: | 3269 lx (lux)
Thermodynamic properties
![phase at STP | all | solid melting point | median | 1061 °C | highest | 1750 °C (thorium) | lowest | 640 °C (plutonium) | distribution | boiling point | median | 3100 °C | highest | 4820 °C (thorium) | lowest | 1196 °C (ytterbium) | distribution | molar heat of fusion | median | 10 kJ/mol | highest | 19.9 kJ/mol (erbium) | lowest | 5.5 kJ/mol (cerium) | distribution | molar heat of vaporization | median | 300 kJ/mol | highest | 530 kJ/mol (thorium) | lowest | 160 kJ/mol (ytterbium) | distribution | specific heat at STP | median | 168 J/(kg K) | highest | 240 J/(kg K) (gadolinium) | lowest | 99.1 J/(kg K) (protactinium) | distribution | Néel point | median | 90.5 K | highest | 230 K (terbium) | lowest | 12.5 K (cerium) | distribution | (properties at standard conditions)](../image_source/2f501ee90a8e721bc202c52810a96821.png)
phase at STP | all | solid melting point | median | 1061 °C | highest | 1750 °C (thorium) | lowest | 640 °C (plutonium) | distribution | boiling point | median | 3100 °C | highest | 4820 °C (thorium) | lowest | 1196 °C (ytterbium) | distribution | molar heat of fusion | median | 10 kJ/mol | highest | 19.9 kJ/mol (erbium) | lowest | 5.5 kJ/mol (cerium) | distribution | molar heat of vaporization | median | 300 kJ/mol | highest | 530 kJ/mol (thorium) | lowest | 160 kJ/mol (ytterbium) | distribution | specific heat at STP | median | 168 J/(kg K) | highest | 240 J/(kg K) (gadolinium) | lowest | 99.1 J/(kg K) (protactinium) | distribution | Néel point | median | 90.5 K | highest | 230 K (terbium) | lowest | 12.5 K (cerium) | distribution | (properties at standard conditions)