Vacuum: Difference between revisions

Latest revision as of 11:01, 23 March 2025

Absence of matter

Introduction[edit]

A vacuum is a space devoid of matter. The word stems from the Latin term vacuus for "vacant" or "void". An approximation to such vacuum is a region with a gaseous pressure much less than atmospheric pressure. Physicists often discuss ideal test results that would occur in a perfect vacuum, which they sometimes simply call "vacuum" or "free space", and use the term partial vacuum to refer to an actual imperfect vacuum as one might have in a laboratory or in space.

Historical Development[edit]

The concept of vacuum has been central to many scientific advancements. The development of the vacuum pump in the 17th century by Otto von Guericke was a significant milestone. This device allowed for the creation of a vacuum by removing air from a sealed container.

Early Experiments[edit]

In the 17th century, Evangelista Torricelli created the first laboratory vacuum using a barometer. This experiment demonstrated that air had weight and could exert pressure. The

Diagram of a barometer, an early vacuum device

illustrates the basic principle of Torricelli's barometer.

Applications of Vacuum[edit]

Vacuum technology has numerous applications in science and industry. It is essential in the production of semiconductors, the operation of electron microscopes, and the creation of incandescent light bulbs.

Vacuum Tubes[edit]

Vacuum tubes were crucial in the development of early electronics. They control the flow of electricity in a high vacuum between electrodes to which an electric potential difference has been applied. The

shows an example of an early vacuum tube used in experiments.

Vacuum in Space[edit]

Space is often considered a near-perfect vacuum, although it is not completely devoid of matter. The magnetosphere of Earth, for example, is influenced by the vacuum conditions in space.

Measurement of Vacuum[edit]

The measurement of vacuum is crucial for many scientific and industrial processes. Instruments such as the McLeod gauge are used to measure low pressures in a vacuum.

Quantum Vacuum[edit]

In quantum field theory, the vacuum state is the quantum state with the lowest possible energy. Generally, it contains no physical particles. The concept of vacuum fluctuations arises from the uncertainty principle, which allows for the temporary appearance of particle-antiparticle pairs.

File:Vacuum fluctuations revealed through spontaneous parametric down-conversion.ogv

Vacuum Pumps[edit]

Vacuum pumps are devices that remove gas molecules from a sealed volume to leave behind a partial vacuum. They are essential in many industrial and scientific applications.

Related Pages[edit]

@@ Line 1: / Line 1: @@
-== Vacuum ==
+{{Short description|Absence of matter}}
-[[File:Kolbenluftpumpe_hg.jpg|A historical vacuum pump|thumb]]
+{{Use dmy dates|date=October 2023}}
-[[File:Baro_0.png|Diagram of a barometer, an early vacuum device|thumb|left]]
-[[File:Crookes_tube_two_views.jpg|A Crookes tube, an early experimental vacuum tube|thumb]]
-[[File:Vacuum_fluctuations_revealed_through_spontaneous_parametric_down-conversion.ogv|Video illustrating vacuum fluctuations|thumb|left]]
-[[File:Structure_of_the_magnetosphere_LanguageSwitch.svg|Diagram of the magnetosphere, which is influenced by vacuum conditions in space|thumb]]
-A '''vacuum''' is a space devoid of matter. The word stems from the Latin adjective ''vacuus'' for "vacant" or "void". An approximation to such vacuum is a region with a gaseous pressure much less than atmospheric pressure. Physicists often discuss ideal test results that would occur in a perfect vacuum, which they sometimes simply call "vacuum" or "free space", and use the term partial vacuum to refer to an actual imperfect vacuum as one might have in a laboratory or in space.
+==Introduction==
+A '''vacuum''' is a space devoid of matter. The word stems from the Latin term ''vacuus'' for "vacant" or "void". An approximation to such vacuum is a region with a gaseous pressure much less than atmospheric pressure. Physicists often discuss ideal test results that would occur in a perfect vacuum, which they sometimes simply call "vacuum" or "free space", and use the term partial vacuum to refer to an actual imperfect vacuum as one might have in a laboratory or in space.
-== History ==
+==Historical Development==
+The concept of vacuum has been central to many scientific advancements. The development of the [[vacuum pump]] in the 17th century by [[Otto von Guericke]] was a significant milestone. This device allowed for the creation of a vacuum by removing air from a sealed container.
-[[Galileo Galilei]]. The first successful creation of a vacuum was achieved by [[Evangelista Torricelli]] in 1643, who invented the [[barometer]].
+[[File:Kolbenluftpumpe_hg.jpg|A historical vacuum pump|thumb|right]]
-== Types of Vacuum ==
+===Early Experiments===
+In the 17th century, [[Evangelista Torricelli]] created the first laboratory vacuum using a [[barometer]]. This experiment demonstrated that air had weight and could exert pressure. The [[File:Baro_0.png|Diagram of a barometer, an early vacuum device|thumb|left]] illustrates the basic principle of Torricelli's barometer.
-=== Partial Vacuum ===
+==Applications of Vacuum==
-A partial vacuum is a region where the gas pressure is lower than atmospheric pressure. This can be achieved using various methods, such as a [[vacuum pump]].
+Vacuum technology has numerous applications in science and industry. It is essential in the production of [[semiconductors]], the operation of [[electron microscopes]], and the creation of [[incandescent light bulbs]].
-=== High Vacuum ===
+[[File:Gluehlampe_01_KMJ.jpg|An incandescent light bulb, which operates in a vacuum|thumb|right]]
-High vacuum is a vacuum where the pressure is much lower than atmospheric pressure, typically below 1 mPa. High vacuum is used in [[electron microscopy]] and [[vacuum tubes]].
-=== Ultra-High Vacuum ===
+===Vacuum Tubes===
-Ultra-high vacuum (UHV) is a vacuum regime characterized by pressures lower than about 100 nPa. UHV is used in [[surface science]] and [[particle accelerators]].
+[[Vacuum tubes]] were crucial in the development of early electronics. They control the flow of electricity in a high vacuum between electrodes to which an electric potential difference has been applied. The [[File:Crookes_tube_two_views.jpg|A Crookes tube, an early experimental vacuum tube|thumb|right]] shows an example of an early vacuum tube used in experiments.
-== Applications ==
+==Vacuum in Space==
+Space is often considered a near-perfect vacuum, although it is not completely devoid of matter. The [[magnetosphere]] of Earth, for example, is influenced by the vacuum conditions in space.
-Vacuum technology is essential in many fields. In [[electronics]], vacuum tubes were used in early computers and radios. In [[space exploration]], vacuum conditions are used to simulate the environment of outer space. In [[industrial processes]], vacuums are used in [[vacuum distillation]] and [[vacuum coating]].
+[[File:Structure_of_the_magnetosphere_LanguageSwitch.svg|Diagram of the magnetosphere, which is influenced by vacuum conditions in space|thumb|right]]
-== Vacuum Pumps ==
+==Measurement of Vacuum==
+The measurement of vacuum is crucial for many scientific and industrial processes. Instruments such as the [[McLeod gauge]] are used to measure low pressures in a vacuum.
-Vacuum pumps are devices that remove gas molecules from a sealed volume to create a vacuum. There are several types of vacuum pumps, including:
+[[File:McLeod_gauge_01.jpg|A McLeod gauge, used to measure vacuum pressure|thumb|right]]
-* [[Rotary vane pump]]
+==Quantum Vacuum==
-* [[Diaphragm pump]]
+In quantum field theory, the vacuum state is the quantum state with the lowest possible energy. Generally, it contains no physical particles. The concept of [[vacuum fluctuations]] arises from the uncertainty principle, which allows for the temporary appearance of particle-antiparticle pairs.
-* [[Turbomolecular pump]]
-== Related Pages ==
+[[File:Vacuum_fluctuations_revealed_through_spontaneous_parametric_down-conversion.ogv|Video illustrating vacuum fluctuations|thumb|left]]
-* [[Vacuum tube]]
-* [[Vacuum pump]]
-* [[Vacuum chamber]]
-* [[Vacuum cleaner]]
-== Gallery ==
-<gallery>
-File:McLeod_gauge_01.jpg|A McLeod gauge, used to measure vacuum pressure.
-File:Gluehlampe_01_KMJ.jpg|An incandescent light bulb, which operates in a vacuum.
-File:L-Pumpe2.png|Diagram of a vacuum pump.
-File:Hand_pump.png|A hand-operated vacuum pump.
-File:Cut_through_turbomolecular_pump.jpg|Cross-section of a turbomolecular pump.
-File:An_Experiment_on_a_Bird_in_an_Air_Pump_by_Joseph_Wright_of_Derby,_1768.jpg|Painting depicting an experiment with a vacuum pump.
-</gallery>
-[[Category:Vacuum]]
-<gallery>
-File:Kolbenluftpumpe_hg.jpg|Vacuum
-File:Baro_0.png|Vacuum
-File:Crookes_tube_two_views.jpg|Vacuum
-File:Vacuum_fluctuations_revealed_through_spontaneous_parametric_down-conversion.ogv|Vacuum
-File:Structure_of_the_magnetosphere_LanguageSwitch.svg|Vacuum
-File:McLeod_gauge_01.jpg|Vacuum
-File:Gluehlampe_01_KMJ.jpg|Vacuum
-File:L-Pumpe2.png|Vacuum
-File:Hand_pump.png|Vacuum
-File:Cut_through_turbomolecular_pump.jpg|Vacuum
-File:An_Experiment_on_a_Bird_in_an_Air_Pump_by_Joseph_Wright_of_Derby,_1768.jpg|Vacuum
-</gallery>
-==Vacuum==
-A '''vacuum''' is a space devoid of matter. The word stems from the Latin term "vacuus" for "vacant" or "void". An approximation to such vacuum is a region with a gaseous pressure much less than atmospheric pressure. Physicists often discuss ideal vacuums, which are theoretical constructs that do not exist in reality, as even outer space is not a perfect vacuum.
-==Types of Vacuum==
-===Partial Vacuum===
-A '''partial vacuum''' is a region where the pressure is lower than the surrounding atmosphere. This is the most common type of vacuum encountered in everyday applications, such as in [[vacuum cleaner]]s and [[vacuum pump]]s.
-===Perfect Vacuum===
-A '''perfect vacuum''', also known as an absolute vacuum, is a theoretical state where no particles exist. In practice, it is impossible to achieve a perfect vacuum, but scientists can create environments with extremely low particle densities.
-===High Vacuum===
-'''High vacuum''' refers to a vacuum where the pressure is below 1 pascal. High vacuums are used in [[scientific research]] and [[industrial processes]], such as [[electron microscopy]] and [[vacuum coating]].
-===Ultra-High Vacuum===
-'''Ultra-high vacuum''' (UHV) is a vacuum regime characterized by pressures lower than 10^-7 pascal. UHV is essential in [[surface science]] and [[particle physics]] experiments.
-==Applications of Vacuum==
-===Industrial Applications===
-Vacuum technology is crucial in many industrial processes. For example, [[vacuum distillation]] is used in the [[petroleum industry]] to separate components of crude oil. [[Vacuum forming]] is a technique used in [[plastic manufacturing]].
-===Scientific Research===
-In [[scientific research]], vacuums are used to study [[physical phenomena]] without interference from air molecules. [[Particle accelerators]] and [[space simulation]] chambers rely on high and ultra-high vacuums.
-===Medical Applications===
+==Vacuum Pumps==
-In the [[medical field]], vacuums are used in [[suction devices]] during [[surgery]] and in [[vacuum therapy]] for wound healing.
+Vacuum pumps are devices that remove gas molecules from a sealed volume to leave behind a partial vacuum. They are essential in many industrial and scientific applications.
-==Vacuum in Space==
+[[File:L-Pumpe2.png|Diagram of a vacuum pump|thumb|right]]
-Outer [[space]] is often considered a near-perfect vacuum, but it contains low-density particles, [[cosmic rays]], and [[radiation]]. The [[interstellar medium]] has a very low density, but it is not completely empty.
 ==Related Pages==
 * [[Vacuum pump]]
-* [[Vacuum cleaner]]
 * [[Vacuum tube]]
-* [[Vacuum chamber]]
+* [[Quantum vacuum]]
-* [[Vacuum distillation]]
+* [[Barometer]]
+* [[Magnetosphere]]
-{{Physics}}
-{{Technology}}
+[[Category:Vacuum]]
 [[Category:Physics]]
-[[Category:Technology]]
+[[Category:Thermodynamics]]