Yes, normally it does.
Elements that easily transmit (conduct) electricity and heat display characteristics of conductivity. They are called metals.
conducts heat readily - Dondi
Electricity creates heat when flowing through a resistor such as the filament in a tungsten light bulb, and, since the heat can not be readily conducted away in the near vacuum inside a light bulb, the heat eventually raises the temperature of the filament to a value that leads to radiation of light from the hot filament.
It i scalled insulator. The substance do not allow heat to pass through it It Is also heat resistant (dont let heat through it). An example of a heat resistant material is wood.
That would depend on wiether or not the molecule reacts to the heat or not. For instance gasoline will take heat to a point then react in a combustion reaction, forming new substances. Metals take heat to a point then have enough energy to change state into a liquid, but they don't fly apart. The more energy you add to something in general, the more excited the atoms of the molecule become and the molecule will be able to change state. Or at some point the molecule will gain enough energy to chemically react. However to end my prattling, I know some substances will eventually hold enough heat to turn into plasma, which I think can separate into elements, which would mean the atoms had to split at some point.
when heat is given to molecule that molecule vibrates that vibrations passed to other connected molecules.... and heat is transferred through molecules.....
convection
It is a waterproofing seal but heat readily passes through it.
The rate at which heat flows through a material between points at different tempatures
Heat inside a building warms the wall surface by convection,(the transfer of heat by fluid motion), the heat then travels through the wall by conduction (molecule by molecule heat transfer), the outer surface of the wall then gives off heat to the atmosphere again by convection. The rate of heat transfer through the wall is affected by two things: the number of films (surfaces, or boundaries) it must pass through, the more films the slower the transfer. And secondly the u factor, or insulation properties of the materials through which the heat travels.Heat inside a building warms the wall surface by convection,(the transfer of heat by fluid motion), the heat then travels through the wall by conduction (molecule by molecule heat transfer), the outer surface of the wall then gives off heat to the atmosphere again by convection. The rate of heat transfer through the wall is affected by two things: the number of films (surfaces, or boundaries) it must pass through, the more films the slower the transfer. And secondly the u factor, or insulation properties of the materials through which the heat travels.Read more: How_does_heat_escape_through_walls
Heat inside a building warms the wall surface by convection,(the transfer of heat by fluid motion), the heat then travels through the wall by conduction (molecule by molecule heat transfer), the outer surface of the wall then gives off heat to the atmosphere again by convection. The rate of heat transfer through the wall is affected by two things: the number of films (surfaces, or boundaries) it must pass through, the more films the slower the transfer. And secondly the u factor, or insulation properties of the materials through which the heat travels.Read more: How_does_heat_escape_through_walls
Heat inside a building warms the wall surface by convection,(the transfer of heat by fluid motion), the heat then travels through the wall by conduction (molecule by molecule heat transfer), the outer surface of the wall then gives off heat to the atmosphere again by convection. The rate of heat transfer through the wall is affected by two things: the number of films (surfaces, or boundaries) it must pass through, the more films the slower the transfer. And secondly the u factor, or insulation properties of the materials through which the heat travels.Read more: How_does_heat_escape_through_walls
Transmit heat.
if you mean the transfer rate of heat ?; the heat transfer rate depends on the atom or molecule type .
Heat inside a building warms the wall surface by convection,(the transfer of heat by fluid motion), the heat then travels through the wall by conduction (molecule by molecule heat transfer), the outer surface of the wall then gives off heat to the atmosphere again by convection. The rate of heat transfer through the wall is affected by two things: the number of films (surfaces, or boundaries) it must pass through, the more films the slower the transfer. And secondly the u factor, or insulation properties of the materials through which the heat travels.Read more: How_does_heat_escape_through_walls
Conductivity
Radiant heat transmits in the form of waves.