This question doesn't really make much sense as stated, so I'm going to have to take a stab at figuring out what you really meant:
The attractive forces between molecules are strongest in the solid phase and weakest in the gas phase.
The NATURE of the attractive forces depends on what the actual particles are, so you'd need to provide additional information in order for us to answer.
It causes the liquids or the solids to drop, or spill, or break and it does not have an influence on the gas because the force of gravity doesn't have an effect on it.
Correction - Gravity does affect gas because gas is matter. If this were not true, then the Earth's atmosphere would have floated away by now!
Intermolecular forces are short range forces and become significant the closer the molecules are to one another.
They are a function of the electromagnetic character of the substance and therefore remain constant regardless of the state.
The forces are stronger in the solid than in the liquid than in the gaseous state.
Gasses will typically have the greatest attraction to other gasses. Solids will typically have the least attraction to other solids.
solids (molecules are close together and highly attracted to one another)
Solid.
Solid.
liquid
liquid
To get a solid to a liquid you have to apply heat and melt it, and to get a liquid to a gas it has to evaporate. If you are talking about a solid going into a gas, then I don't know.
it is a gas
Platinum is a solid.
gas -> liquid = condensation liquid -> solid = solidification (freezing) solid -> gas = sublimation gas -> solid = deposition solid -> liquid = melting liquid -> solid = vaporization
solid, liquid, gas, plasma
Yes,intermolecular forces are weaker in gas.Much stronger in solid
Solid
General classes of colloids are: gas in liquid, gas in solid, liquid in gas, liquid in liquid, liquid in solid, solid in gas, solid in liquid, solid in solid.
Because their intermolecular forces are very high relative to liquid and gas
Not exactly sure what you're asking but I'll give it a shot. Intermolecular forces do not change when a substance undergoes a phase change, such as when something goes from a solid to a liquid. The same intermolecular forces that existed when something was a solid still exist when it changes to a liquid, and vice versa. Its just that with the addition of an external factor (most commonly an increase in temperature) a substance is able to overcome the attractive forces in the solid and break apart into a liquid or when a liquid turns into a gas. For when something freezes or condenses the opposite happens, an external factor (most commonly a decrease in temperature) causes a given substance to be attracted to itself more strongly and then the substances comes together as either a liquid or a solid. In summary: The forces do not change. Just how much the forces effect the overall substance changes.
solid
evaporation solid to liquid - melting liquid to gas - evaporation gas to liquid - condensation liquid to solid - freezing solid to gas and gas to solid - sublimation
Is a pencil a solid liquid or gas
Gas
evaporation solid to liquid - melting liquid to gas - evaporation gas to liquid - condensation liquid to solid - freezing solid to gas and gas to solid - sublimation
These nine types of solution are solid to solid solid to liquid solid to gas liquid to solid liquid to liquid liquid to gas gas to solid gas to liquid gas to gas
gas