Question

when we decrease the volume of the container for the same amount of gas. How gas particles behave under this situation (a) distance between the particles of the gas decreases (b) distance between particles of the gas increases (c) collision of particles with the wall of container decreases (d) force exerted by the particles on wall of the container decreases​

Answer 1

Answer:

distance between the particles of the gas decreases.

Answer 2

The correct option is, (A) distance between the particles of the gas decreases.

When we decrease the volume of the container for the same amount of gas?

• Distance between the particles of the gas decreases.
• The gas molecules are moving and are a certain distance apart from one another.
• An increase in pressure pushes the molecules closer together, reducing the volume.

What happens to the gas pressure if the gas is released from a small container to a large container?

• If the volume of a container is decreased, the gas molecules have less space in which to move around.
• As a result, they will strike the walls of the container more often, and the pressure increases.

How do gas particles respond to an increase in volume?

• Increase kinetic energy and increase in temperature.

What happens to the volume the gas occupies when the pressure on a gas increases?

• The inverse relationship between pressure and volume is known as Boyle's law.
• Constant temperature, the volume of the gas increases as the pressure of the gas decreases and the volume of the gas decreases as the pressure of the gas increases.

Hence, the volume of the container for the same amount of gas  particles behave under the situation of distance between the particles of the gas decreases.

Learn more about gas particle here,

https://brainly.in/question/21372697?msp_poc_exp=5

#SPJ2