they affect one another's motion only when they collide.
You think probable to the kinetic theory of gases.
The kinetic theory of gases identifies how gas particles affect each other's motion. It states that gas particles are in constant random motion, colliding with each other and the walls of their container. These collisions create pressure and affect the overall behavior of the gas.
Particles of gas affect each other's motion through collisions. When gas particles collide, they can transfer energy and momentum to each other, causing changes in speed and direction. These collisions influence the overall behavior of the gas, such as its pressure, temperature, and volume.
Gas particles are in constant random motion and move independently of each other, only interacting through collisions. These collisions can change the direction and speed of the particles, leading to changes in pressure and volume of the gas.
because the heat is to hot.
Matter is any substance that has mass and takes up space. It is composed of particles such as atoms and molecules that are in constant motion.
The motion of particles can change due to various factors like temperature, pressure, and external forces. For example, at higher temperatures, particles tend to move faster, whereas at lower temperatures, their motion slows down. Additionally, external forces can affect the direction and speed of particle motion.
The particles are tightly packed so they vibrate.
When heat is transferred to an object, the particles within the object gain kinetic energy, causing them to move faster and vibrate more vigorously. This increased motion of the particles leads to an increase in the object's temperature.
Brownian motion
Brownian motion is the random moving and mixing of particles.
Particles within are limited to vibrational motion, unlike the particles which make up liquids which can have vibrational & translational motion, and gaseous particles which have vibrational, translational and rotational motion.