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'''Liquid'''
{{DISPLAYTITLE:Liquid}}


A '''liquid''' is a nearly incompressible [[Fluid|fluid]] that conforms to the shape of its container but retains a (nearly) constant volume independent of pressure. The volume is definite if the temperature and pressure are constant. When a solid is heated above its [[Melting point|melting point]], it becomes liquid, given that the pressure is higher than the triple point of the substance. Intermolecular (or interatomic or interionic) forces are still important, but the molecules have enough energy to move relative to each other and the structure is mobile. This means that liquid is not definite in shape but rather conforms to the shape of its container. Its volume is usually greater than that of its corresponding solid (the [[Anomalous expansion of water|anomalous expansion of water]] is a notable exception), and it will occupy the entirety of the bottom part of a container, displacing air. A distinctive property of the liquid state is surface tension, leading to wetting phenomena.
A '''liquid''' is one of the four fundamental states of [[matter]], along with [[solid]], [[gas]], and [[plasma (physics)|plasma]]. A liquid is a nearly incompressible fluid that conforms to the shape of its container but retains a (nearly) constant volume independent of pressure. As such, it is one of the most common states of matter on Earth and is essential for life.


==Characteristics==
==Properties==
Liquids have a definite volume but no fixed shape. They are characterized by their ability to flow and take the shape of their container. The molecules in a liquid are closely packed but not in a fixed position, allowing them to move freely past one another.


The density of a liquid is usually close to that of a solid, and much higher than in a gas. Therefore, liquid and solid are both termed condensed matter. On the other hand, as liquids and gases share the ability to flow, they are both called fluids. Although liquid water is abundant on Earth, this state of matter is actually the least common in the known universe, because liquids require a relatively narrow temperature/pressure range to exist.
[[File:Teilchenmodell_Flüssigkeit.svg|Particle model of liquid|thumb|left]]
 
===Viscosity===
Viscosity is a measure of a liquid's resistance to flow. It describes the internal friction of a moving fluid. A liquid with high viscosity, such as honey, flows more slowly than a liquid with low viscosity, such as water.
 
[[File:Viscosities.gif|Viscosities|thumb|right]]
 
===Surface Tension===
Surface tension is the elastic tendency of a fluid surface which makes it acquire the least surface area possible. This property allows insects, such as the water strider, to walk on water.
 
[[File:Water_drop_001.jpg|Water drop|thumb|left]]
 
===Cohesion and Adhesion===
Cohesion refers to the attraction between molecules of the same substance, while adhesion refers to the attraction between molecules of different substances. These properties are crucial in phenomena such as capillary action.
 
===Density and Buoyancy===
The density of a liquid is its mass per unit volume. Buoyancy is the ability of a liquid to exert an upward force on an object placed in it, which is why objects float or sink.
 
==Behavior==
 
===Flow and Fluid Dynamics===
Liquids flow and can be described by the principles of fluid dynamics. The study of liquids in motion is called hydrodynamics.
 
===Thermal Properties===
Liquids have specific heat capacities and thermal conductivities that affect how they transfer heat. The immiscibility of hot and cold water can be visualized using thermal imaging.
 
[[File:Hot_and_cold_water_immiscibility_thermal_image.jpg|Hot and cold water immiscibility|thumb|right]]
 
===Phase Transitions===
Liquids can transition to other states of matter. When heated, they can become gases through evaporation or boiling. When cooled, they can become solids through freezing.


==Applications==
==Applications==
Liquids are used in a wide range of applications, from industrial processes to everyday life. They are essential in [[hydraulics]], [[lubrication]], and as solvents in chemical reactions.
===Cavitation===
Cavitation is a phenomenon where rapid changes in pressure in a liquid lead to the formation of small vapor-filled cavities. These cavities can collapse violently, causing damage to surfaces such as propellers.
[[File:Cavitating-prop.jpg|Cavitating propeller|thumb|left]]
===Lava Lamps===
Lava lamps are a popular decorative item that demonstrate the principles of liquid immiscibility and density differences.


Liquids have a variety of uses, as lubricants, solvents, and coolants. In hydraulic systems, liquid is used to transmit power. In tribology, liquids are studied for their properties as lubricants. Liquids may also be used in processes such as painting and printing for their ability to evenly distribute themselves over a surface and for their ability to wet surfaces.
[[File:Blue_Lava_lamp.JPG|Blue lava lamp|thumb|right]]


==See also==
==Related Pages==
* [[Solid]]
* [[Gas]]
* [[Plasma (physics)]]
* [[Fluid dynamics]]
* [[Fluid dynamics]]
* [[Phase (matter)]]
* [[Supercooling]]
* [[Supercritical fluid]]
* [[Triple point]]
* [[Viscosity]]
* [[Viscosity]]


==References==
[[Category:States of matter]]
<references />
 
[[Category:Phases of matter]]
[[Category:Liquids]]
 
{{stub}}
<gallery>
File:Water_drop_001.jpg|Water drop
File:Hot_and_cold_water_immiscibility_thermal_image.jpg|Hot and cold water immiscibility
File:Blue_Lava_lamp.JPG|Blue lava lamp
File:Cavitating-prop.jpg|Cavitating propeller
File:2006-01-14_Surface_waves.jpg|Surface waves
File:Viscosities.gif|Viscosities
File:Phase-diag2.svg|Phase diagram
File:Teilchenmodell_Flüssigkeit.svg|Particle model of liquid
File:Lennard-Jones_Radial_Distribution_Function.svg|Lennard-Jones radial distribution function
</gallery>
<gallery>
File:Water drop 001.jpg|Water drop
File:Hot and cold water immiscibility thermal image.jpg|Hot and cold water immiscibility
File:Blue Lava lamp.JPG|Blue Lava lamp
File:Cavitating-prop.jpg|Cavitating propeller
File:2006-01-14 Surface waves.jpg|Surface waves
File:Viscosities.gif|Viscosities
File:Phase-diag2.svg|Phase diagram
File:Teilchenmodell Flüssigkeit.svg|Particle model of liquid
File:Lennard-Jones Radial Distribution Function.svg|Lennard-Jones Radial Distribution Function
</gallery>

Latest revision as of 10:45, 23 March 2025


A liquid is one of the four fundamental states of matter, along with solid, gas, and plasma. A liquid is a nearly incompressible fluid that conforms to the shape of its container but retains a (nearly) constant volume independent of pressure. As such, it is one of the most common states of matter on Earth and is essential for life.

Properties[edit]

Liquids have a definite volume but no fixed shape. They are characterized by their ability to flow and take the shape of their container. The molecules in a liquid are closely packed but not in a fixed position, allowing them to move freely past one another.

Particle model of liquid

Viscosity[edit]

Viscosity is a measure of a liquid's resistance to flow. It describes the internal friction of a moving fluid. A liquid with high viscosity, such as honey, flows more slowly than a liquid with low viscosity, such as water.

Viscosities

Surface Tension[edit]

Surface tension is the elastic tendency of a fluid surface which makes it acquire the least surface area possible. This property allows insects, such as the water strider, to walk on water.

Water drop

Cohesion and Adhesion[edit]

Cohesion refers to the attraction between molecules of the same substance, while adhesion refers to the attraction between molecules of different substances. These properties are crucial in phenomena such as capillary action.

Density and Buoyancy[edit]

The density of a liquid is its mass per unit volume. Buoyancy is the ability of a liquid to exert an upward force on an object placed in it, which is why objects float or sink.

Behavior[edit]

Flow and Fluid Dynamics[edit]

Liquids flow and can be described by the principles of fluid dynamics. The study of liquids in motion is called hydrodynamics.

Thermal Properties[edit]

Liquids have specific heat capacities and thermal conductivities that affect how they transfer heat. The immiscibility of hot and cold water can be visualized using thermal imaging.

Hot and cold water immiscibility

Phase Transitions[edit]

Liquids can transition to other states of matter. When heated, they can become gases through evaporation or boiling. When cooled, they can become solids through freezing.

Applications[edit]

Liquids are used in a wide range of applications, from industrial processes to everyday life. They are essential in hydraulics, lubrication, and as solvents in chemical reactions.

Cavitation[edit]

Cavitation is a phenomenon where rapid changes in pressure in a liquid lead to the formation of small vapor-filled cavities. These cavities can collapse violently, causing damage to surfaces such as propellers.

Cavitating propeller

Lava Lamps[edit]

Lava lamps are a popular decorative item that demonstrate the principles of liquid immiscibility and density differences.

Blue lava lamp

Related Pages[edit]

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