The thermal conductivity of californium is 1 W/m.K.
As a metal californium is a heat conductor but no data exist on the thermal conductivity.
Thermal conductivity refers to the conductivity that is associated with heat. Electrical conductivity refers to the conductivity that is associated with electricity.
Thermal and electrical conductivity are physical properties; they represent the ability of materials to conduct heat or electrical current.
Both thermal conductivity and electrical conductivity tend to be higher in metals than in most other materials.
no
The electrical conductivity is not know, Thermal conductivity is 0.00565 W/(m·K)
The electrical conductivity is not known. The thermal conductivity is 0.00565 W/(m·K)
from wiedemann franz law we know that thermal conductivity/electrical conductivity=constant that is sigma inv. proportional to k thus a material having large electrical conductivity has low thermal conductivity and moreover we know R=pL/A p=RA/L 1/P=L/RA i.e lower area means greater conductivity(electrical) and lower thermal conductivity
Metals have a higher electrical and thermal conductivity than nonmetals.
Thermal conductivity Electrical conductivity
No. Diamond is a thermal conductor, but an electrical insulator.
Thermal conductivity of uranium: 27 W/m.K. Electrical resistivity of uranium: 28.10-8 ohm.m.