Tuning fork: Difference between revisions

Latest revision as of 11:15, 23 March 2025

A tuning fork is an acoustic resonator in the form of a two-pronged fork. It is used to produce a fixed tone when struck against a surface or with an object. The tuning fork was invented in 1711 by John Shore, a British musician.

Design and Function[edit]

A tuning fork consists of a handle and two prongs, or tines, made of elastic metal, usually steel. When the tines are struck, they vibrate at a specific frequency, producing a pure musical tone. The frequency of the sound produced depends on the length and mass of the tines.

The tuning fork is designed to vibrate at a specific frequency, which is determined by the length and mass of its tines. The most common tuning fork frequency is 440 Hz, which is the standard pitch for A440, used as a tuning standard for musical instruments.

Physics of Vibration[edit]

When a tuning fork is struck, the tines begin to vibrate in a complex pattern. The fundamental frequency is the primary tone heard, but the tines also vibrate at higher harmonics. The shape of the tines and the material of the fork influence the overtones produced.

The vibration of the tines causes the surrounding air to vibrate, creating sound waves. The handle of the fork remains relatively still, allowing the user to hold it without damping the vibrations.

Applications[edit]

Tuning forks are used in various applications, including:

Music[edit]

Tuning forks are commonly used by musicians to tune instruments. The fork is struck and held near the instrument, allowing the musician to adjust the instrument's pitch to match the fork's tone.

Medical[edit]

In medicine, tuning forks are used in audiometry to test hearing. They are also used in neurology to assess vibratory sensation and bone conduction.

Horology[edit]

Tuning forks have been used in watches to maintain accurate time. The Bulova Accutron was the first watch to use a tuning fork as its timekeeping element, vibrating at 360 Hz.

Scientific Instruments[edit]

Tuning forks are used in scientific instruments as frequency standards. They provide a stable reference frequency for calibrating other devices.

Quartz Crystal Tuning Forks[edit]

Quartz crystal tuning forks are used in quartz clocks and quartz watches. These devices use the piezoelectric properties of quartz to maintain a precise frequency, which is used to keep accurate time.

Related Pages[edit]

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-{{Short description|An acoustic resonator used for tuning musical instruments}}
+{{DISPLAYTITLE:Tuning Fork}}
-{{Use dmy dates|date=October 2023}}
-A '''tuning fork''' is an acoustic resonator in the form of a two-pronged fork. It is used to produce a fixed pitch that is used as a standard for tuning musical instruments. The tuning fork was invented in 1711 by John Shore, a British musician.
+A '''tuning fork''' is an acoustic resonator in the form of a two-pronged fork. It is used to produce a fixed tone when struck against a surface or with an object. The tuning fork was invented in 1711 by John Shore, a British musician.
 ==Design and Function==
-A tuning fork consists of a handle and two prongs, or tines, made of elastic metal, usually steel. When struck against a surface, the tines vibrate, creating a sound wave of a specific frequency. The most common tuning fork produces a sound at 440 Hz, which corresponds to the musical note A above middle C, also known as A440.
+[[File:TuningFork659Hz.jpg|thumb|A tuning fork vibrating at 659 Hz]]
+A tuning fork consists of a handle and two prongs, or tines, made of elastic metal, usually steel. When the tines are struck, they vibrate at a specific frequency, producing a pure musical tone. The frequency of the sound produced depends on the length and mass of the tines.
-[[File:TuningFork659Hz.jpg|thumb|A tuning fork vibrating at 659 Hz]]
+The tuning fork is designed to vibrate at a specific [[frequency]], which is determined by the length and mass of its tines. The most common tuning fork frequency is 440 Hz, which is the standard pitch for [[A440]], used as a tuning standard for musical instruments.
+==Physics of Vibration==
+[[File:Mode_Shape_of_a_Tuning_Fork_at_Eigenfrequency_440.09_Hz.gif|thumb|Mode shape of a tuning fork at eigenfrequency 440.09 Hz]]
+When a tuning fork is struck, the tines begin to vibrate in a complex pattern. The fundamental frequency is the primary tone heard, but the tines also vibrate at higher harmonics. The shape of the tines and the material of the fork influence the overtones produced.
-The shape of the tuning fork is designed to minimize the damping of the oscillations, allowing it to sustain a pure tone for a longer period. The frequency of the sound produced depends on the length and mass of the tines.
+The vibration of the tines causes the surrounding air to vibrate, creating sound waves. The handle of the fork remains relatively still, allowing the user to hold it without damping the vibrations.
 ==Applications==
-Tuning forks are used in various applications beyond musical instrument tuning. In medical diagnostics, they are used in hearing tests and to assess vibration sense in neurological examinations. Tuning forks are also used in scientific research to study sound waves and resonance.
+Tuning forks are used in various applications, including:
+===Music===
+Tuning forks are commonly used by musicians to tune instruments. The fork is struck and held near the instrument, allowing the musician to adjust the instrument's pitch to match the fork's tone.
-[[File:Mode_Shape_of_a_Tuning_Fork_at_Eigenfrequency_440.09_Hz.gif|thumb|Mode shape of a tuning fork at eigenfrequency 440.09 Hz]]
+===Medical===
+In medicine, tuning forks are used in [[audiometry]] to test hearing. They are also used in [[neurology]] to assess vibratory sensation and bone conduction.
-==Quartz Crystal Tuning Forks==
+===Horology===
-Quartz crystal tuning forks are used in electronic devices such as watches and clocks. These tuning forks vibrate at a precise frequency when an electric current is applied, providing an accurate timekeeping standard.
+[[File:Accutron.jpg|thumb|A tuning fork watch mechanism]]
+Tuning forks have been used in [[watches]] to maintain accurate time. The [[Bulova Accutron]] was the first watch to use a tuning fork as its timekeeping element, vibrating at 360 Hz.
-[[File:Inside_QuartzCrystal-Tuningfork.jpg|thumb|Inside a quartz crystal tuning fork]]
+===Scientific Instruments===
+[[File:Tuning_fork_oscillator_frequency_standard.jpg|thumb|Tuning fork oscillator frequency standard]]
+Tuning forks are used in scientific instruments as frequency standards. They provide a stable reference frequency for calibrating other devices.
-==Historical Development==
+==Quartz Crystal Tuning Forks==
-The tuning fork was invented by John Shore, the Sergeant Trumpeter to the court, in 1711. Shore's invention was initially used to tune musical instruments, but its applications have since expanded into various scientific and medical fields.
+[[File:Inside_QuartzCrystal-Tuningfork.jpg|thumb|Inside view of a quartz crystal tuning fork]]
+Quartz crystal tuning forks are used in [[quartz clocks]] and [[quartz watches]]. These devices use the piezoelectric properties of quartz to maintain a precise frequency, which is used to keep accurate time.
 ==Related Pages==
-* [[Acoustics]]
+* [[A440]]
-* [[Musical tuning]]
+* [[Frequency]]
-* [[Resonance]]
+* [[Sound]]
-* [[Quartz clock]]
+* [[Vibration]]
+* [[Piezoelectricity]]
-==Gallery==
-<gallery>
-File:Accutron.jpg|A tuning fork watch mechanism
-File:Tuning_fork_oscillator_frequency_standard.jpg|Tuning fork oscillator frequency standard
-</gallery>
-==References==
-*
-* "Tuning Fork." The Physics Hypertextbook. Glenn Elert.
 [[Category:Musical tuning]]
 [[Category:Acoustics]]
-[[Category:1711 introductions]]
+[[Category:Horology]]