the amount of "heat" that a particle has is really dependent on how fast that particle is moving. Heat is really just the motion of particles.
So, one particle can transfer heat (motion/speed) to another by colliding with it. Just like a someone throwing a billiard ball into a second billiard ball. Before the 2 balls collide, the one you threw (moving faster) is the hot particle and the stationary ball (not moving/slow) is the cold one. After the collision both balls will be moving. So some heat (motion) was transferred from one ball to the other.
When you fry bacon on a stove, the fast moving particles of the pan collide with the bacon particles, causing them to move faster. If the bacon particles move faster, they are hotter.
NOW GO READ YOUR CHEMISTRY BOOK!
In the particle theory, heat conduction is explained by the transfer of kinetic energy between particles. When a material is heated, its particles gain energy and vibrate more rapidly. These particles then collide with neighboring particles, transferring some of their energy and causing them to vibrate faster. This process continues throughout the material, leading to the overall transfer of heat.
The type of heat transfer that requires objects to be touching is conduction. In conduction, heat is transferred through direct contact between objects as the energy is passed from particle to particle.
Heat conduction is the method that represents the transfer of heat in a fluid. Heat is transferred from particle to particle through direct contact within the fluid.
The particle model of heat transfer oversimplifies the complex interactions that occur at the atomic and molecular level, leading to inaccurate predictions and results for certain scenarios. Additionally, it does not account for the wave-like behavior of heat transfer in some situations.
In conduction, heat transfer occurs through the collision and transfer of kinetic energy between particles in a material. When a hotter particle collides with a cooler particle, it transfers some of its kinetic energy, causing the cooler particle to increase in temperature. This process continues through the material, resulting in the transfer of heat energy from a region of higher temperature to a region of lower temperature.
Kinetic theory and Heat transfer are both in motion, in Kinetic theory all states of matter are in vigorous motion and Heat transfer is associated with the motion of atoms or molecules.
Conduction
Conduction.
In the particle theory, heat conduction is explained by the transfer of kinetic energy between particles. When a material is heated, its particles gain energy and vibrate more rapidly. These particles then collide with neighboring particles, transferring some of their energy and causing them to vibrate faster. This process continues throughout the material, leading to the overall transfer of heat.
thermal energy is energy caused by friction friction is when two or more objects touch kinetic energy is when somthing is falling after you realesed potential energy that's all i can tell ya
This transfer of heat by passing vibrations through a substance is called conduction. In conduction, heat energy is transferred from one particle to another without the particles themselves moving. This method of heat transfer is efficient in solids.
conduction
Conduction
The type of heat transfer that requires objects to be touching is conduction. In conduction, heat is transferred through direct contact between objects as the energy is passed from particle to particle.
Heat conduction is the method that represents the transfer of heat in a fluid. Heat is transferred from particle to particle through direct contact within the fluid.
their particle density
i dont now