Metals conduct heat well for two reasons: metal ions pack very closely together in their molecular lattice, and electrons drifting through the metal carry kinetic energy around the lattice. The result is a quick elevatio... More »

Copper conducts heat well because its atoms contain only one free valence electrons in the outer shell. Elements with a low number of valence electrons transfer heat the best, and copper has only one. More »

Water is a poor conductor of heat, and is actually classified as an insulator of heat. Materials that are good conductors of heat and of electricity must have free electrons that can carry the energy from one compound to... More »

Metals conduct heat because they have free electrons in their atoms. When a metal is subject to heat, the free electrons move, spreading the heat to the nearest atoms. The heat is then transferred throughout the metal. More »

Heat conduction is the transfer of internal energy (microscopic kinetic and potential energy) from a region of higher temperature to one of lower temperature by the interaction of particles like atoms, molecules, ions or... More »

Copper is a good conductor of heat because it contains a lattice of vibrating ions that allow electrons to move freely. Copper's ability to transfer heat quickly makes it a suitable material for copper plates, pipes and ... More »

The bonds that hold the atoms in metals together are often described as being built upon metal ions that are floating in a sea of electrons. This is because the electrons in the outer shells, or valence shells, of metals... More »