Two molecules must collide with each other.
Two objects must be touching and it has to transfer heat
in thermal contact with each other
It is conduction, where heat from hotter objects are transferred to cooler ones when they come in contact. However, they must touch each other before it takes place. It happens to any matter although their speed differs (solids transfer heat faster than liquids, with gas being the slowest)
Mass
A hot object must be directly touching a cold object.
Two molecules must collide with each other.
Two objects must be touching and it has to transfer heat
in thermal contact with each other
the liquid or gas must circulate to move the heat.
It is conduction, where heat from hotter objects are transferred to cooler ones when they come in contact. However, they must touch each other before it takes place. It happens to any matter although their speed differs (solids transfer heat faster than liquids, with gas being the slowest)
Mass
Two molecules must collide with each other.
A hot object must be directly touching a cold object.
Yep, the heat is transferred via convection when fluid flow is involved, which is primarily blood flow. For example, you hands are cold, then warm blood flow helps to warm them up. That's convection. Sure conduction is also involved. When heat must pass solid barrier such as cell walls then the heat is transferred via conduction.
Because, conduction is the transfer of heat flow fro one object to another. So that means they must touch to make conduction occur.
Thermal conduction is caused by two different things: Phonon conduction and Electron conduction. Electrons are thermal conductors because electrons have mass and velocity, ie. they have momentum. Thermal energy can be carried by these electrons. What makes a good thermal conductor through the energy carrying of electrons is good electrical conductor. This is because if the electrons are bouncing all around the inside of the conductor, they are transfering their energy to the molecules/atoms of the conductor and not to the other "side". More technically, the crystal lattice of the conductor must be free of as many defects as possible, and the lattice atoms must have electrons in the the conduction band. The other thermal conductor is phonons. Phonons are basically a name we give to the movement of the lattice itself. Think of phonons as waves in a pool. The better the phonon conductivity, the better the thermal conduction. Think of phonons as a rope that is held at noth ends and you whip a wave across it. If there is a lot of tention, the wave will quickly travel to the other side. If it is loose, the wave will travel slowly and maybe not even make it to the other side. The technical equivalent is high bond strengths in the lattice. High bond strength between the atoms means that the phonons will travel faster because the movement of one atom will greatly affect the movement of the neighboring atoms. This is why diamond is such a good thermal conductor, it has very very strong bonds.
Yes. The property must be transferred by the owner to the trustee of the trust.Yes. The property must be transferred by the owner to the trustee of the trust.Yes. The property must be transferred by the owner to the trustee of the trust.Yes. The property must be transferred by the owner to the trustee of the trust.