Asked by Ben
Which answer choice correctly states and describes the relationship between volume and particle motion within the states of matter?
1:They do not have any relationship, so they do not affect each other.
2:They have an indirect relationship, so when the volume for a state of matter increases, its particle motion decreases.
3:They have a direct relationship, so when the volume for a state of matter increases, its particle motion increases.
4:They have a stable relationship, so the volume and particle motion for a state of matter are equal to each other at all times.
1:They do not have any relationship, so they do not affect each other.
2:They have an indirect relationship, so when the volume for a state of matter increases, its particle motion decreases.
3:They have a direct relationship, so when the volume for a state of matter increases, its particle motion increases.
4:They have a stable relationship, so the volume and particle motion for a state of matter are equal to each other at all times.
Answers
Answered by
oobleck
think PV = kT
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