Real gases have non-zero volume and experience intermolecular forces, which contradict the assumptions of kinetic-molecular theory that gases consist of point particles with no volume and that there are no intermolecular forces present. Real gases also deviate from ideal behavior at high pressures and low temperatures, which is not accounted for in the kinetic-molecular theory.
Boltzmann and Maxwell proposed the kinetic molecular theory, which states that gases are composed of a large number of molecules that are in constant motion and collide with each other and the walls of their container. This theory helped explain many gas laws and phenomena related to the behavior of gases.
One conflict with the kinetic molecular theory of gases is that it assumes gas molecules have no volume or intermolecular forces, which might not always be true for real gases. Additionally, the theory assumes perfectly elastic collisions between gas molecules, which may not always occur in real-world conditions.
Kinetic molecular theory states that all matter is composed of particles that are in constant motion. This theory explains the behavior of gases in terms of the motion of particles and their interactions.
An ideal gas. Ideal gases are theoretical gases that perfectly follow the assumptions of the kinetic molecular theory and gas laws, such as having particles that are point masses and exhibit perfectly elastic collisions.
The father of the Kinetic Molecular Theory of Gases is James Clerk Maxwell. He made significant contributions to the theory by formulating the concept of the distribution of molecular speeds in a gas.
Real gases have non-zero volume and experience intermolecular forces, which contradict the assumptions of kinetic-molecular theory that gases consist of point particles with no volume and that there are no intermolecular forces present. Real gases also deviate from ideal behavior at high pressures and low temperatures, which is not accounted for in the kinetic-molecular theory.
In chemistry, KMT stands for Kinetic Molecular Theory. It is a theory that explains the behavior of gases in terms of the motion of their particles. It states that gases are made up of a large number of small particles that are in constant, random motion.
The five postulates of the kinetic molecular theory of gases provide a framework for understanding the behavior of gases at a molecular level. They help explain various gas properties such as pressure, volume, temperature, and diffusion in terms of the motion and interactions of gas molecules. By using these postulates, scientists can make predictions and observations about how gases will behave in different conditions.
Boltzmann and Maxwell proposed the kinetic molecular theory, which states that gases are composed of a large number of molecules that are in constant motion and collide with each other and the walls of their container. This theory helped explain many gas laws and phenomena related to the behavior of gases.
One conflict with the kinetic molecular theory of gases is that it assumes gas molecules have no volume or intermolecular forces, which might not always be true for real gases. Additionally, the theory assumes perfectly elastic collisions between gas molecules, which may not always occur in real-world conditions.
Kinetic Molecular Model?? kinetic molecular model,which describes the behavior of solids,liquids and gases,was established based on the kinetic molecular theory. :)) SOURCE?. mah book^^ ♥
The Kinetic Molecular Theory does not have a specific formula. It is a set of assumptions that describe the behavior of gases based on the motion of their particles. These assumptions include that gases are composed of particles in constant random motion, have negligible volume, and do not exert intermolecular forces except when they collide.
Kinetic molecular theory states that all matter is composed of particles that are in constant motion. This theory explains the behavior of gases in terms of the motion of particles and their interactions.
An ideal gas. Ideal gases are theoretical gases that perfectly follow the assumptions of the kinetic molecular theory and gas laws, such as having particles that are point masses and exhibit perfectly elastic collisions.
The kinetic molecular theory for gases does not assume the presence of intermolecular forces between gas particles. It assumes that gas particles are in constant, random motion and that the volume of the gas particles is negligible compared to the volume of the container.
The kinetic-molecular theory explains the behavior of gases by describing their particles as tiny, constantly moving objects that collide elastically with each other and the walls of their container. The theory helps to understand concepts such as pressure, temperature, and volume in relation to gas behavior.