Week 11 - Temp KMT Charles's Law

random straight-line motion and no attractive forces

random straight-line motion and strong attractive forces

random curved-line motion and no attractive forces

random curved-line motion and strong attractive forces

colliding without transferring energy

in random, constant, straight-line motion

arranged in a regular geometric pattern

separated by small distances relative to their size

halved

doubled

tripled

unchanged

Gas particles are separated by distances smaller than the size of the gas particles.

Gas particles do not transfer energy to each other when they collide.

Gas particles have no attractive forces between them.

Gas particles move in predictable, circular motion.

The mass of the sample decreases.

The number of moles of gas increases.

The volume of each atom decreases.

The frequency of collisions between atoms increases.

from 400. K to 200. K

from 200. K to 400. K

from 400.°C to 200.°C

from 200.°C to 400.°C

Particles move slower.

The molecules will speed up as the temperature decreases.

The average kinetic energy of the particles increases.

It increases.

decrease and the volume of the gas sample to decrease

decrease and the volume of the gas sample to increase

increase and the volume of the gas sample to decrease

increase and the volume of the gas sample to increase