Input interpretation
ferromagnetic elements | thermal conductivity
Results
cobalt | 100 W/(m K) (watts per meter kelvin difference) gadolinium | 11 W/(m K) (watts per meter kelvin difference) iron | 80 W/(m K) (watts per meter kelvin difference) nickel | 91 W/(m K) (watts per meter kelvin difference)
ferromagnetic elements | thermal conductivity | 86 W/(m K) (watts per meter kelvin difference) (median)
Ranked values
| | visual | ratios | 4 | gadolinium | | 0.11 | 1 3 | iron | | 0.8 | 7 2 | nickel | | 0.9 | 8 1 | cobalt | | 1 | 9
Unit conversions for median thermal conductivity 86 W/(m K)
86 W/(m °C) (watts per meter degree Celsius difference)
0.86 W/(cm °C) (watts per centimeter degree Celsius difference)
0.86 W/(cm K) (watts per centimeter kelvin difference)
8.6×10^6 erg/(cm K s) (ergs per centimeter kelvin difference second)
4.1 BTU_IT in/(h in^2 °F) (IT British thermal unit inches per hour square inch degree Fahrenheit difference)
49 BTU_IT ft/(h ft^2 °F) (IT British thermal unit feet per hour square foot degree Fahrenheit difference)
0.2 cal_th cm/(s cm^2 °C) (thermochemical calorie centimeters per second square centimeter degree Celsius difference)
Comparisons for median thermal conductivity 86 W/(m K)
≈ 0.27 × gold thermal conductivity ( ≈ 320 W/(m K) )
≈ 0.61 × carbon thermal conductivity ( ≈ 140 W/(m K) )
≈ 1.1 × iron thermal conductivity ( ≈ 80 W/(m K) )