Mercury, apparently
Bismuth has the lowest thermal condctivity of metals that are solid at room temperature.
part of that energy is the kinetic energy of these vibrations and moeements of particles
Friction can cause kinetic energy to change into thermal energy
Yes metal is generally strong.
rubber because that is a good thermal insulator
Porosity is a defect, which results from air entrapment in the molten metal due to turbulent flow causing air bubbles. Usually, this defect is characterized by smooth and spherical pores, but if rough and angular it is most likely as a result of shrinkage dendrites. The mechanical properties associated with shrinkage is the thermal expansion of the molten metal when it solidifies and cools to room temperature, if the riser isn't properly designed to accommodate shrinkage, there would be dimensional changes and are usually in form of cracks.
silica Aerogel Refer to the chart from the Wikipedia article on thermal conductivity in related links.
Yes, metal will conduct heat energy
Copper has a high thermal conductivity, not low. This is a good generalization of any metal, although they vary in conductivity.
Silver
This metal is silver with a thermal conductivity of 429 W/m.K at 27 0C.
styrofoam
The metal with the highest thermal conductivity is silver, followed by copper, then gold.
If you mean "thermal conductivity", no; metals are generally fairly good heat conductors.
Because metal has better thermal conductivity than wood. Thermal conductivity depends of the atomic and molecular structure of the stuff. The air is a poor thermal conductor, but water is better.
Yes, silver is an excellent conductor of heat. It has a high thermal conductivity, which means it can efficiently transfer heat from one point to another. This property makes silver useful in applications where heat transfer is important, such as in electronics and jewelry making.
Thermal conductivity of uranium: 27 W/m.K. Electrical resistivity of uranium: 28.10-8 ohm.m.
Copper is considered one of the best metals for heat transfer due to its high thermal conductivity. It is commonly used in heat exchangers, refrigeration and air conditioning systems, and electronics. Aluminum and silver are also good choices for heat transfer, but copper is often preferred for its balance of thermal conductivity and cost-effectiveness.