1.5.3 Kinetic Theory of Gases

Cards (35)

The Kinetic Theory of Gases explains gas behavior in terms of the motion and interactions of individual gas particles
In the Kinetic Theory of Gases, collisions between gas particles and the container walls are assumed to be elastic
The Kinetic Theory of Gases explains macroscopic gas properties based on the microscopic behavior of gas particles.
True
Greater mass and higher speed result in greater kinetic energy.
True
As temperature increases, the average kinetic energy of gas particles increases. 
True
Gas particles in the Kinetic Theory are assumed to move in constant random motion. 
True
Match the assumption of the Kinetic Theory with its description:
Constant Random Motion ↔️ Gas particles move in all directions at varying speeds
Negligible Volume ↔️ The volume of particles is negligible compared to the container
Elastic Collisions ↔️ Collisions have no loss of kinetic energy
Kinetic energy is directly proportional to the mass and the square
Doubling the speed of an object increases its kinetic energy by a factor of four
Lower temperatures correspond to lower average kinetic energies
The Kinetic Theory of Gases explains the relationship between temperature and the kinetic energy of gas particles
Lower temperatures correspond to lower average kinetic energies of gas particles. 
True
In elastic collisions, the total kinetic energy of the system is conserved
Increasing the velocity of an object significantly increases its kinetic energy
What is pressure defined as in the Kinetic Theory of Gases?
Force exerted by particles
What increases the force and pressure exerted by gas particles in a container?
Higher kinetic energy
Increasing pressure reduces the volume of a gas, forcing particles to move faster.
What is the Kinetic Theory of Gases used to explain?
Behavior of gases
What is the volume of individual gas particles assumed to be in the Kinetic Theory of Gases?
Negligible
How many main assumptions does the Kinetic Theory of Gases rely on?
Three
What is the formula for kinetic energy?
$KE =$ $\frac{1}{2}mv^{2}$
What does temperature measure in terms of the Kinetic Theory of Gases?
Average kinetic energy
What happens to the average kinetic energy of gas particles as temperature increases?
Increases
Match the concept with its description:
Temperature ↔️ Average kinetic energy
Kinetic Energy ↔️ Square of particle velocity
Main assumptions of the Kinetic Theory of Gases:
1️⃣ Constant Random Motion
2️⃣ Negligible Volume
3️⃣ Elastic Collisions
The volume of gas particles is negligible compared to the total gas volume.
True
If a car with a mass of 1000 kg travels at 20 m/s, what is its kinetic energy?
$200,000 J$
In the formula for pressure, $\overline{v^{2}}$ represents the average of the square of the particle speeds
Pressure is solely due to the collisions of gas particles with the container walls.
True
Lower temperatures result in lower average kinetic energies of gas particles.
True
Why does increasing the temperature of a gas increase its average kinetic energy?
Particles move faster
What type of motion do gas particles exhibit according to the Kinetic Theory of Gases?
Constant Random Motion
What is the formula for kinetic energy?
$KE =$ $\frac{1}{2}mv^{2}$
Temperature is directly related to the average kinetic energy of gas particles. 
True
What happens to the motion of gas particles when temperature increases?
Moves faster