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melting point of nanomaterials

Input interpretation

nanomaterials | melting point
nanomaterials | melting point

Melting point rankings

1 | magnesium hydroxide | 350 °C 2 | manganese titanate | 1420 °C (based on 2 values; 13 unavailable)
1 | magnesium hydroxide | 350 °C 2 | manganese titanate | 1420 °C (based on 2 values; 13 unavailable)

Unit conversions for median melting point 885 °C

1158 K (kelvins)
1158 K (kelvins)
1625 °F (degrees Fahrenheit)
1625 °F (degrees Fahrenheit)
2085 °R (degrees Rankine)
2085 °R (degrees Rankine)
708 °Ré (degrees Réaumur)
708 °Ré (degrees Réaumur)
472.1 °Rø (degrees Rømer)
472.1 °Rø (degrees Rømer)

Comparison for median melting point 885 °C

415 °C below to 185 °C above typical temperature of magma (700 to 1300 °C)
415 °C below to 185 °C above typical temperature of magma (700 to 1300 °C)
11.85 °C below large log fire temperature (1170 K)
11.85 °C below large log fire temperature (1170 K)

Blackbody information for median melting point 885 °C (degrees Celsius)

perceived color | peak wavelength | 2.502 µm (micrometers) peak frequency | 68.09 THz (terahertz)
perceived color | peak wavelength | 2.502 µm (micrometers) peak frequency | 68.09 THz (terahertz)

Corresponding quantities

Thermodynamic energy E from E = kT: | 10 ceV (centielectronvolts)
Thermodynamic energy E from E = kT: | 10 ceV (centielectronvolts)
Blackbody energy flux Φ from Φ = σT^4: | 102017 W/m^2 (watts per square meter)
Blackbody energy flux Φ from Φ = σT^4: | 102017 W/m^2 (watts per square meter)
Approximate luminous exitance from a planar blackbody radiator perpendicular to its surface: | 213 lx (lux)
Approximate luminous exitance from a planar blackbody radiator perpendicular to its surface: | 213 lx (lux)

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