Gas particles are in constant random motion with high kinetic energy, leading to greater separation between particles compared to solid particles which have low kinetic energy and are tightly packed. This results in the gas taking up a larger volume for the same mass as the solid.
The theory used to explain changes in state is the Kinetic Molecular Theory. This theory states that the state of matter is determined by the movement and energy of its particles, with changes in state occurring when the particles gain or lose energy.
Brown suggested the kinetic theory of heat to explain the nature of heat. This theory proposes that heat is the result of the movement of particles in a substance, and that as particles move faster, the substance's temperature increases.
This theory is known as the Kinetic Molecular Theory. It states that all matter is composed of particles (atoms, molecules, or ions) that are in constant motion. The theory helps explain the behavior of gases, liquids, and solids based on the movement of these particles.
The kinetic molecular theory was designed to explain the behavior of gases by describing them as vast numbers of small particles in constant motion. It explains the relationship between the temperature, pressure, volume, and average kinetic energy of gas particles.
The kinetic molecular theory provides the basis for understanding fluids. According to this theory, fluids are composed of particles (atoms or molecules) that are in constant random motion, with different kinetic energies. This motion helps explain the fluid properties of liquids and gases, such as their ability to flow and take the shape of their container.
kinetic theory
The theory used to explain changes in state is the Kinetic Molecular Theory. This theory states that the state of matter is determined by the movement and energy of its particles, with changes in state occurring when the particles gain or lose energy.
kE=1÷2×mv
The kinetic theory of matter for radiation states that radiation consists of particles (photons) that move at the speed of light and transfer energy when they interact with matter. This theory helps explain how radiation behaves in terms of absorption, emission, and scattering processes.
Atomic theory. And in much more weird detail: quantum physics.
Brown suggested the kinetic theory of heat to explain the nature of heat. This theory proposes that heat is the result of the movement of particles in a substance, and that as particles move faster, the substance's temperature increases.
This theory is known as the Kinetic Molecular Theory. It states that all matter is composed of particles (atoms, molecules, or ions) that are in constant motion. The theory helps explain the behavior of gases, liquids, and solids based on the movement of these particles.
Kinetic Molecular Theory's abbreviation is KMT or sometimes KMTG when it is the abbreviation for Kinetic Molecular Theory of Gas
The kinetic molecular theory was designed to explain the behavior of gases by describing them as vast numbers of small particles in constant motion. It explains the relationship between the temperature, pressure, volume, and average kinetic energy of gas particles.
ALEXIS ROCKS AND SO DOES DELANIE AND RACHAEL!!!
kinetic theory.
Diffusion can be explained by the kinetic-molecular theory.