Search

melting point of group 9 elements

Input interpretation

group 9 elements | melting point
group 9 elements | melting point

Results

cobalt | 1495 °C (degrees Celsius) rhodium | 1964 °C (degrees Celsius) iridium | 2466 °C (degrees Celsius) meitnerium | (data not available)
cobalt | 1495 °C (degrees Celsius) rhodium | 1964 °C (degrees Celsius) iridium | 2466 °C (degrees Celsius) meitnerium | (data not available)
group 9 elements | melting point | 1964 °C (degrees Celsius) (median) (based on 3 values; 1 unavailable)
group 9 elements | melting point | 1964 °C (degrees Celsius) (median) (based on 3 values; 1 unavailable)

Plot

Plot
Plot

Unit conversions for median melting point 1964 °C

2237 K (kelvins)
2237 K (kelvins)
3567 °F (degrees Fahrenheit)
3567 °F (degrees Fahrenheit)
4027 °R (degrees Rankine)
4027 °R (degrees Rankine)
1571 °Ré (degrees Réaumur)
1571 °Ré (degrees Réaumur)
1039 °Rø (degrees Rømer)
1039 °Rø (degrees Rømer)

Comparison for median melting point 1964 °C

80 °C below temperature of a hydrogen flame (2320 K)
80 °C below temperature of a hydrogen flame (2320 K)

Blackbody information for median melting point 1964 °C (degrees Celsius)

  perceived color |  peak wavelength | 1.295 µm (micrometers) peak frequency | 131.5 THz (terahertz)
perceived color | peak wavelength | 1.295 µm (micrometers) peak frequency | 131.5 THz (terahertz)

Corresponding quantities

Thermodynamic energy E from E = kT:  | 19 ceV (centielectronvolts)
Thermodynamic energy E from E = kT: | 19 ceV (centielectronvolts)
Blackbody energy flux Φ from Φ = σT^4:  | 1.42×10^6 W/m^2 (watts per square meter)
Blackbody energy flux Φ from Φ = σT^4: | 1.42×10^6 W/m^2 (watts per square meter)
Approximate luminous exitance from a planar blackbody radiator perpendicular to its surface:  | 5.448×10^6 lx (lux)
Approximate luminous exitance from a planar blackbody radiator perpendicular to its surface: | 5.448×10^6 lx (lux)

Thermodynamic properties

phase at STP | all | solid melting point | median | 1964 °C  | highest | 2466 °C (iridium)  | lowest | 1495 °C (cobalt)  | distribution |  boiling point | median | 3695 °C  | highest | 4428 °C (iridium)  | lowest | 2927 °C (cobalt)  | distribution |  molar heat of fusion | median | 21.7 kJ/mol  | highest | 26 kJ/mol (iridium)  | lowest | 16.2 kJ/mol (cobalt)  | distribution |  molar heat of vaporization | median | 495 kJ/mol  | highest | 560 kJ/mol (iridium)  | lowest | 375 kJ/mol (cobalt)  | distribution |  specific heat at STP | median | 240 J/(kg K)  | highest | 421 J/(kg K) (cobalt)  | lowest | 131 J/(kg K) (iridium)  | distribution |  (properties at standard conditions)
phase at STP | all | solid melting point | median | 1964 °C | highest | 2466 °C (iridium) | lowest | 1495 °C (cobalt) | distribution | boiling point | median | 3695 °C | highest | 4428 °C (iridium) | lowest | 2927 °C (cobalt) | distribution | molar heat of fusion | median | 21.7 kJ/mol | highest | 26 kJ/mol (iridium) | lowest | 16.2 kJ/mol (cobalt) | distribution | molar heat of vaporization | median | 495 kJ/mol | highest | 560 kJ/mol (iridium) | lowest | 375 kJ/mol (cobalt) | distribution | specific heat at STP | median | 240 J/(kg K) | highest | 421 J/(kg K) (cobalt) | lowest | 131 J/(kg K) (iridium) | distribution | (properties at standard conditions)