# Quick Answer: What is the decreasing order of forces of attraction between the particles of solid liquid and gases?

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## What is the force of attraction between solid liquid and gas?

In case of solids these forces are strong because there’s less kinetic energy between the particles. And in case of Liquids the forces are comapatively weaker than solids because of higher kinetic energy of particles. And hence, they are comparatively more loosely bounded. In case of gases these forces are the weakest.

## What has the strongest force of attraction solid liquid or gas?

Due to the solid’s low kinetic energy, particles have no “time” to move around, the particles have more “time” to be attracted. Therefore, solids have the strongest intramolecular forces (because they have the strongest attraction).

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## What is the order of intermolecular forces of attraction between different states of matter?

Thus, option (a) gas>liquid>solid is correct. Note: Solids have the highest forces of attraction between the particles and the separation between them is the least. Gases have the weakest forces of attraction between the particles and the separation between them is the highest.

## How do intermolecular forces of attraction affect the properties of liquids and solids?

Intermolecular forces determine bulk properties, such as the melting points of solids and the boiling points of liquids. Liquids boil when the molecules have enough thermal energy to overcome the intermolecular attractive forces that hold them together, thereby forming bubbles of vapor within the liquid.

## What is the force of attraction in gas?

The forces of attraction between the molecules in a gas are very strong. Q. More is the space between the particles of the matter; more is the force of attraction between them.

## Why is the force of attraction weaker in liquids than solids?

That is why; solids are incompressible and have high density. In liquids, the intermolecular forces are strong enough to keep the particles tied upon to each other but not strong enough to keep them in fixed positions. This is why; liquids can flow and do not have a definite shape.

## Why does gas have the weakest force of attraction?

Gas In a gas, particles are in continual straight-line motion. The kinetic energy of the molecule is greater than the attractive force between them, thus they are much farther apart and move freely of each other. In most cases, there are essentially no attractive forces between particles.

## How about the state which has the weakest force of attraction Why?

Forces of attraction are weakest in a gaseous state.

## What is the correct order of decreasing order of intermolecular forces in the following substance?

Answer: In decreasing order of intermolecular force is mention below: Salt>Petroleum>Hydrogen.

## What is the correct decreasing order of molecular motion of particles in the following * 1 point?

1) Lemon juice > curd > water 2) Curd > water > lemon juice. 3) Water > lemon juice > curd 4 ) Curd > lemon juice > water.

## Which of the following decreasing order of strength of intermolecular forces is correct?

In order from strongest to weakest, the intermolecular forces given in the answer choices are: ion-dipole, hydrogen bonding, dipole-dipole, and Van der Waals forces.

## Which of the following decreases as the strength of the attractive intermolecular forces increases?

The correct option is (e) The vapor pressure of a liquid. With an increase in attractive intermolecular forces, the boiling point of the substance…

## How do intermolecular forces affect liquids?

Higher the intermolecular forces between the liquid particles, harder it is for it to escape into the vapor phase, ie., you need more energy to convert it from liquid to the vapor phase, in other words, higher its boiling point.

## What intermolecular forces affect the properties of matter in the liquid phase?

11.2: Intermolecular Forces

The three major types of intermolecular interactions are dipole–dipole interactions, London dispersion forces (these two are often referred to collectively as van der Waals forces), and hydrogen bonds.

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