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What is the Kinetic Molecular Theory formula?
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.
When is an ideal gas an imaginary gas?
An ideal gas is never an imaginary gas; it is a theoretical concept used to describe the behavior of real gases under certain ideal conditions, such as negligible volume of gas particles and no intermolecular forces. It is an approximation that helps simplify the study of gas behavior.
Kinetic molecular theory assumptions fail at high pressure?
At high pressure, the assumptions of kinetic molecular theory may no longer hold true as the molecules are squeezed close together and their interactions become significant. This can lead to deviations from the ideal gas behavior predicted by the theory, such as changes in volume and temperature. These deviations are more pronounced for real gases than ideal gases under high pressure conditions.
What is the theory pertaining to the motion of molecules of gases?
Kinetic Theory.
What does the kinetic-molecular theory not work well on?
The kinetic-molecular theory does not work well at describing the behavior of particles under conditions of high pressure or low temperature, where intermolecular forces become significant. Additionally, it may not accurately predict the behavior of real gases due to assumptions such as negligible volume of particles and no intermolecular forces between them.
What characteristics do real gases have that contradict the assumptions of kinetic-molecular theory?
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.
What is the Kinetic Molecular Theory formula?
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.
When is an ideal gas an imaginary gas?
An ideal gas is never an imaginary gas; it is a theoretical concept used to describe the behavior of real gases under certain ideal conditions, such as negligible volume of gas particles and no intermolecular forces. It is an approximation that helps simplify the study of gas behavior.
A gas that follows the kinetic molecular theory and gas laws exactly is known as a?
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.
Kinetic molecular theory assumptions fail at high pressure?
At high pressure, the assumptions of kinetic molecular theory may no longer hold true as the molecules are squeezed close together and their interactions become significant. This can lead to deviations from the ideal gas behavior predicted by the theory, such as changes in volume and temperature. These deviations are more pronounced for real gases than ideal gases under high pressure conditions.
How do you interpret gas pressure in terms of kinetic theory?
interpretation of pressure on kinetic theory of gases
What is the theory pertaining to the motion of molecules of gases?
Kinetic Theory.
What explains how the particles in gases?
Kinetic Theory.
Who invented kinetic theory of gases?
james maxwell
What explains how the particles in gases behave?
Kinetic Theory.
What are the three assumptions of the kintic theory?
The three assumptions of the kinetic theory of gases are: 1) Gas molecules are in constant, random motion; 2) Gas molecules are negligible in size compared to the distance between them; and 3) Gas molecules do not exert attractive or repulsive forces on each other except when they collide.
What theory explains the behavior of gases with respect to conditions such as temperature and pressure?
The Kinetic Theory
