In
music theory
Music theory is the study of the practices and possibilities of music. ''The Oxford Companion to Music'' describes three interrelated uses of the term "music theory". The first is the "rudiments", that are needed to understand music notation (ke ...
, an interval is a difference in
pitch between two sounds.
An interval may be described as horizontal, linear, or melodic if it refers to successively sounding tones, such as two adjacent pitches in a melody, and vertical or harmonic if it pertains to simultaneously sounding tones, such as in a
chord
Chord may refer to:
* Chord (music), an aggregate of musical pitches sounded simultaneously
** Guitar chord a chord played on a guitar, which has a particular tuning
* Chord (geometry), a line segment joining two points on a curve
* Chord ( ...
.
In
Western music, intervals are most commonly differences between
notes of a
diatonic scale
In music theory, a diatonic scale is any heptatonic scale that includes five whole steps (whole tones) and two half steps (semitones) in each octave, in which the two half steps are separated from each other by either two or three whole steps, ...
. Intervals between successive notes of a scale are also known as scale steps. The smallest of these intervals is a
semitone. Intervals smaller than a semitone are called
microtones. They can be formed using the notes of various kinds of non-diatonic scales. Some of the very smallest ones are called
commas
The comma is a punctuation mark that appears in several variants in different languages. It has the same shape as an apostrophe or single closing quotation mark () in many typefaces, but it differs from them in being placed on the baseline o ...
, and describe small discrepancies, observed in some
tuning systems, between
enharmonically equivalent notes such as C and D. Intervals can be arbitrarily small, and even imperceptible to the human ear.
In physical terms, an interval is the
ratio between two sonic frequencies. For example, any two notes an octave apart have a frequency ratio of 2:1. This means that successive increments of pitch by the same interval result in an exponential increase of frequency, even though the human ear perceives this as a linear increase in pitch. For this reason, intervals are often measured in
cents, a unit derived from the
logarithm of the frequency ratio.
In Western music theory, the most common naming scheme for intervals describes two properties of the interval: the
quality (perfect, major, minor, augmented, diminished) and
number (unison, second, third, etc.). Examples include the
minor third or
perfect fifth
In music theory, a perfect fifth is the Interval (music), musical interval corresponding to a pair of pitch (music), pitches with a frequency ratio of 3:2, or very nearly so.
In classical music from Western culture, a fifth is the interval fro ...
. These names identify not only the difference in semitones between the upper and lower notes but also how the interval is
spelled. The importance of spelling stems from the historical practice of differentiating the frequency ratios of enharmonic intervals such as G–G and G–A.
Size
The size of an interval (also known as its width or height) can be represented using two alternative and equivalently valid methods, each appropriate to a different context: frequency ratios or cents.
Frequency ratios
The size of an interval between two notes may be measured by the
ratio of their
frequencies
Frequency is the number of occurrences of a repeating event per unit of time. It is also occasionally referred to as ''temporal frequency'' for clarity, and is distinct from ''angular frequency''. Frequency is measured in hertz (Hz) which is eq ...
. When a
musical instrument
A musical instrument is a device created or adapted to make musical sounds. In principle, any object that produces sound can be considered a musical instrument—it is through purpose that the object becomes a musical instrument. A person who pl ...
is tuned using a
just intonation
In music, just intonation or pure intonation is the tuning of musical intervals
Interval may refer to:
Mathematics and physics
* Interval (mathematics), a range of numbers
** Partially ordered set#Intervals, its generalization from numbers to ...
tuning system, the size of the main intervals can be expressed by small-
integer ratios, such as 1:1 (
unison), 2:1 (
octave
In music, an octave ( la, octavus: eighth) or perfect octave (sometimes called the diapason) is the interval between one musical pitch and another with double its frequency. The octave relationship is a natural phenomenon that has been refer ...
), 5:3 (
major sixth), 3:2 (
perfect fifth
In music theory, a perfect fifth is the Interval (music), musical interval corresponding to a pair of pitch (music), pitches with a frequency ratio of 3:2, or very nearly so.
In classical music from Western culture, a fifth is the interval fro ...
), 4:3 (
perfect fourth), 5:4 (
major third), 6:5 (
minor third). Intervals with small-integer ratios are often called ''just intervals'', or ''pure intervals''.
Most commonly, however, musical instruments are nowadays tuned using a different tuning system, called
12-tone equal temperament
Twelve-tone equal temperament (12-TET) is the musical system that divides the octave into 12 parts, all of which are equally tempered (equally spaced) on a logarithmic scale, with a ratio equal to the 12th root of 2 ( ≈ 1.05946). That resultin ...
. As a consequence, the size of most equal-tempered intervals cannot be expressed by small-integer ratios, although it is very close to the size of the corresponding just intervals. For instance, an
equal-tempered fifth has a frequency ratio of 2:1, approximately equal to 1.498:1, or 2.997:2 (very close to 3:2). For a comparison between the size of intervals in different tuning systems, see .
Cents
The standard system for comparing interval sizes is with
cents. The cent is a
logarithmic Logarithmic can refer to:
* Logarithm, a transcendental function in mathematics
* Logarithmic scale, the use of the logarithmic function to describe measurements
* Logarithmic spiral,
* Logarithmic growth
* Logarithmic distribution, a discrete pr ...
unit of measurement. If frequency is expressed in a
logarithmic scale
A logarithmic scale (or log scale) is a way of displaying numerical data over a very wide range of values in a compact way—typically the largest numbers in the data are hundreds or even thousands of times larger than the smallest numbers. Such a ...
, and along that scale the distance between a given frequency and its double (also called
octave
In music, an octave ( la, octavus: eighth) or perfect octave (sometimes called the diapason) is the interval between one musical pitch and another with double its frequency. The octave relationship is a natural phenomenon that has been refer ...
) is divided into 1200 equal parts, each of these parts is one cent. In twelve-tone
equal temperament
An equal temperament is a musical temperament or tuning system, which approximates just intervals by dividing an octave (or other interval) into equal steps. This means the ratio of the frequencies of any adjacent pair of notes is the same, wh ...
(12-TET), a tuning system in which all
semitones have the same size, the size of one semitone is exactly 100 cents. Hence, in 12-TET the cent can be also defined as one hundredth of a
semitone.
Mathematically, the size in cents of the interval from frequency ''f''
1 to frequency ''f''
2 is
:
Main intervals
The table shows the most widely used conventional names for the intervals between the notes of a
chromatic scale. A
perfect unison
In music, unison is two or more musical parts that sound either the same pitch or pitches separated by intervals of one or more octaves, usually at the same time. ''Rhythmic unison'' is another term for homorhythm.
Definition
Unison or per ...
(also known as perfect prime)
["Prime (ii). See Unison"]
''Grove Music Online
''The New Grove Dictionary of Music and Musicians'' is an encyclopedic dictionary of music and musicians. Along with the German-language ''Die Musik in Geschichte und Gegenwart'', it is one of the largest reference works on the history and theo ...
''. Oxford University Press. Accessed August 2013. ) is an interval formed by two identical notes. Its size is zero
cents. A
semitone is any interval between two adjacent notes in a chromatic scale, a
whole tone is an interval spanning two semitones (for example, a
major second), and a
tritone is an interval spanning three tones, or six semitones (for example, an augmented fourth). Rarely, the term
ditone is also used to indicate an interval spanning two whole tones (for example, a
major third), or more strictly as a synonym of major third.
Intervals with different names may span the same number of semitones, and may even have the same width. For instance, the interval from D to F is a
major third, while that from D to G is a
diminished fourth. However, they both span 4 semitones. If the
instrument is tuned so that the 12 notes of the chromatic scale are equally spaced (as in
equal temperament
An equal temperament is a musical temperament or tuning system, which approximates just intervals by dividing an octave (or other interval) into equal steps. This means the ratio of the frequencies of any adjacent pair of notes is the same, wh ...
), these intervals also have the same width. Namely, all semitones have a width of 100
cents, and all intervals spanning 4 semitones are 400 cents wide.
The names listed here cannot be determined by counting semitones alone. The rules to determine them are explained below. Other names, determined with different naming conventions, are listed in
a separate section. Intervals
smaller than one semitone (commas or microtones) and
larger than one octave (compound intervals) are introduced below.
Interval number and quality
In Western
music theory
Music theory is the study of the practices and possibilities of music. ''The Oxford Companion to Music'' describes three interrelated uses of the term "music theory". The first is the "rudiments", that are needed to understand music notation (ke ...
, an interval is named according to its ''number'' (also called ''diatonic number'') and ''quality''. For instance, ''major third'' (or M3) is an interval name, in which the term ''major'' (M) describes the quality of the interval, and ''third'' (3) indicates its number.
Number
The number of an interval is the number of letter names or
s (lines and spaces) it encompasses, including the positions of both notes forming the interval. For instance, the interval C–G is a fifth (denoted P5) because the notes from C to the G above it encompass five letter names (C, D, E, F, G) and occupy five consecutive staff positions, including the positions of C and G. The
table and the figure above show intervals with numbers ranging from 1 (e.g., P1) to 8 (e.g., P8). Intervals with larger numbers are called
compound intervals.
There is a
one-to-one correspondence between staff positions and diatonic-scale
degrees (the notes of
diatonic scale
In music theory, a diatonic scale is any heptatonic scale that includes five whole steps (whole tones) and two half steps (semitones) in each octave, in which the two half steps are separated from each other by either two or three whole steps, ...
).
This means that interval numbers can also be determined by counting diatonic scale degrees, rather than staff positions, provided that the two notes that form the interval are drawn from a diatonic scale. Namely, C–G is a fifth because in any diatonic scale that contains C and G, the sequence from C to G includes five notes. For instance, in the A-
major
Major (commandant in certain jurisdictions) is a military rank of commissioned officer status, with corresponding ranks existing in many military forces throughout the world. When used unhyphenated and in conjunction with no other indicators ...
diatonic scale, the five notes are C–D–E–F–G (see figure). This is not true for all kinds of scales. For instance, in a
chromatic scale, the notes from C to G are eight (C–C–D–D–E–F–F–G). This is the reason interval numbers are also called ''diatonic numbers'', and this convention is called ''diatonic numbering''.
If one adds any
accidentals to the notes that form an interval, by definition the notes do not change their staff positions. As a consequence, any interval has the same interval number as the corresponding
natural interval, formed by the same notes without accidentals. For instance, the intervals C–G (spanning 8 semitones) and C–G (spanning 6 semitones) are fifths, like the corresponding natural interval C–G (7 semitones).
Notice that interval numbers represent an inclusive count of encompassed staff positions or note names, not the difference between the endpoints. In other words, one starts counting the lower pitch as one, not zero. For that reason, the interval C–C, a perfect unison, is called a prime (meaning "1"), even though there is no difference between the endpoints. Continuing, the interval C–D is a second, but D is only one staff position, or diatonic-scale degree, above C. Similarly, C–E is a third, but E is only two staff positions above C, and so on. As a consequence, joining two intervals always yields an interval number one less than their sum. For instance, the intervals C–E and E–G are thirds, but joined together they form a fifth (C–G), not a sixth. Similarly, a stack of three thirds, such as C–E, E–G, and G–B, is a seventh (C–B), not a ninth.
This scheme applies to intervals up to an octave (12 semitones). For larger intervals, see below.
Quality
The name of any interval is further qualified using the terms perfect (P),
major
Major (commandant in certain jurisdictions) is a military rank of commissioned officer status, with corresponding ranks existing in many military forces throughout the world. When used unhyphenated and in conjunction with no other indicators ...
(M),
minor
Minor may refer to:
* Minor (law), a person under the age of certain legal activities.
** A person who has not reached the age of majority
* Academic minor, a secondary field of study in undergraduate education
Music theory
*Minor chord
** Barb ...
(m),
augmented
Augment or augmentation may refer to:
Language
* Augment (Indo-European), a syllable added to the beginning of the word in certain Indo-European languages
*Augment (Bantu languages), a morpheme that is prefixed to the noun class prefix of nouns ...
(A), and
diminished (d). This is called its ''interval quality''. It is possible to have doubly diminished and doubly augmented intervals, but these are quite rare, as they occur only in
chromatic
Diatonic and chromatic are terms in music theory that are most often used to characterize scales, and are also applied to musical instruments, intervals, chords, notes, musical styles, and kinds of harmony. They are very often used as a pair, ...
contexts. The quality of a
compound interval
In music theory, an interval is a difference in pitch (music), pitch between two sounds.
An interval may be described as horizontal, linear, or melodic if it refers to successively sounding tones, such as two adjacent pitches in a melody, and ...
is the quality of the simple interval on which it is based. Some other qualifiers like ''neutral'', ''subminor'', and ''supermajor'' are used for
non-diatonic intervals.
Perfect
Perfect intervals are so-called because they were traditionally considered perfectly consonant,
[ Definition of ''Perfect consonance'']
in Godfrey Weber's General music teacher, by Godfrey Weber, 1841.
although in Western classical music the perfect fourth was sometimes regarded as a less than perfect consonance, when its function was
contrapuntal. Conversely, minor, major, augmented or diminished intervals are typically considered less consonant, and were traditionally classified as mediocre consonances, imperfect consonances, or dissonances.
Within a
diatonic scale
In music theory, a diatonic scale is any heptatonic scale that includes five whole steps (whole tones) and two half steps (semitones) in each octave, in which the two half steps are separated from each other by either two or three whole steps, ...
all unisons (P1) and octaves (P8) are perfect. Most fourths and fifths are also perfect (P4 and P5), with five and seven semitones respectively. One occurrence of a fourth is augmented (A4) and one fifth is diminished (d5), both spanning six semitones. For instance, in a C-major scale, the A4 is between F and B, and the d5 is between B and F (see table).
By definition, the
inversion of a perfect interval is also perfect. Since the inversion does not change the
pitch class of the two notes, it hardly affects their level of consonance (matching of their
harmonics). Conversely, other kinds of intervals have the opposite quality with respect to their inversion. The inversion of a major interval is a minor interval, the inversion of an augmented interval is a diminished interval.
Major and minor
As shown in the table, a
diatonic scale
In music theory, a diatonic scale is any heptatonic scale that includes five whole steps (whole tones) and two half steps (semitones) in each octave, in which the two half steps are separated from each other by either two or three whole steps, ...
defines seven intervals for each interval number, each starting from a different note (seven unisons, seven seconds, etc.). The intervals formed by the notes of a diatonic scale are called diatonic. Except for unisons and octaves, the diatonic intervals with a given interval number always occur in two sizes, which differ by one semitone. For example, six of the fifths span seven semitones. The other one spans six semitones. Four of the thirds span three semitones, the others four. If one of the two versions is a perfect interval, the other is called either diminished (i.e. narrowed by one semitone) or augmented (i.e. widened by one semitone). Otherwise, the larger version is called major, the smaller one minor. For instance, since a 7-semitone fifth is a perfect interval (P5), the 6-semitone fifth is called "diminished fifth" (d5). Conversely, since neither kind of third is perfect, the larger one is called "major third" (M3), the smaller one "minor third" (m3).
Within a diatonic scale, unisons and octaves are always qualified as perfect, fourths as either perfect or augmented, fifths as perfect or diminished, and all the other intervals (seconds, thirds, sixths, sevenths) as major or minor.
Augmented and diminished
Augmented intervals are wider by one semitone than perfect or major intervals, while having the same interval number (i.e., encompassing the same number of staff positions): they are wider by a
chromatic semitone. Diminished intervals, on the other hand, are narrower by one semitone than perfect or minor intervals of the same interval number: they are narrower by a chromatic semitone. For instance, an augmented third such as C–E spans five semitones, exceeding a major third (C–E) by one semitone, while a diminished third such as C–E spans two semitones, falling short of a minor third (C–E) by one semitone.
The augmented fourth (A4) and the diminished fifth (d5) are the only augmented and diminished intervals that appear in diatonic scales (see table).
Example
Neither the number, nor the quality of an interval can be determined by counting
semitones alone. As explained above, the number of staff positions must be taken into account as well.
For example, as shown in the table below, there are four semitones between A and B, between A and C, between A and D, and between A and E, but
* A–B is a second, as it encompasses two staff positions (A, B), and it is doubly augmented, as it exceeds a major second (such as A–B) by two semitones.
* A–C is a third, as it encompasses three staff positions (A, B, C), and it is major, as it spans 4 semitones.
* A–D is a fourth, as it encompasses four staff positions (A, B, C, D), and it is diminished, as it falls short of a perfect fourth (such as A–D) by one semitone.
* A-E is a fifth, as it encompasses five staff positions (A, B, C, D, E), and it is triply diminished, as it falls short of a perfect fifth (such as A–E) by three semitones.
Shorthand notation
Intervals are often abbreviated with a P for perfect, m for
minor
Minor may refer to:
* Minor (law), a person under the age of certain legal activities.
** A person who has not reached the age of majority
* Academic minor, a secondary field of study in undergraduate education
Music theory
*Minor chord
** Barb ...
, M for
major
Major (commandant in certain jurisdictions) is a military rank of commissioned officer status, with corresponding ranks existing in many military forces throughout the world. When used unhyphenated and in conjunction with no other indicators ...
, d for
diminished, A for
augmented
Augment or augmentation may refer to:
Language
* Augment (Indo-European), a syllable added to the beginning of the word in certain Indo-European languages
*Augment (Bantu languages), a morpheme that is prefixed to the noun class prefix of nouns ...
, followed by the interval number. The indications M and P are often omitted. The
octave
In music, an octave ( la, octavus: eighth) or perfect octave (sometimes called the diapason) is the interval between one musical pitch and another with double its frequency. The octave relationship is a natural phenomenon that has been refer ...
is P8, and a
unison is usually referred to simply as "a unison" but can be labeled P1. The
tritone, an augmented fourth or diminished fifth is often TT. The interval qualities may be also abbreviated with perf, min, maj, dim, aug. Examples:
* m2 (or min2): minor second,
* M3 (or maj3): major third,
* A4 (or aug4): augmented fourth,
* d5 (or dim5): diminished fifth,
* P5 (or perf5): perfect fifth.
Inversion
A simple interval (i.e., an interval smaller than or equal to an octave) may be
inverted by raising the lower pitch an
octave
In music, an octave ( la, octavus: eighth) or perfect octave (sometimes called the diapason) is the interval between one musical pitch and another with double its frequency. The octave relationship is a natural phenomenon that has been refer ...
or lowering the upper pitch an octave. For example, the fourth from a lower C to a higher F may be inverted to make a fifth, from a lower F to a higher C.
:
There are two rules to determine the number and quality of the inversion of any simple interval:
# The interval number and the number of its inversion always add up to nine (4 + 5 = 9, in the example just given).
# The inversion of a major interval is a minor interval, and vice versa; the inversion of a perfect interval is also perfect; the inversion of an augmented interval is a diminished interval, and vice versa; the inversion of a doubly augmented interval is a doubly diminished interval, and vice versa.
For example, the interval from C to the E above it is a minor third. By the two rules just given, the interval from E to the C above it must be a major sixth.
Since compound intervals are larger than an octave, "the inversion of any compound interval is always the same as the inversion of the simple interval from which it is compounded."
For intervals identified by their ratio, the inversion is determined by reversing the ratio and multiplying the ratio by 2 until it is greater than 1. For example, the inversion of a 5:4 ratio is an 8:5 ratio.
For intervals identified by an integer number of semitones, the inversion is obtained by subtracting that number from 12.
Since an
interval class is the lower number selected among the interval integer and its inversion, interval classes cannot be inverted.
Classification
Intervals can be described, classified, or compared with each other according to various criteria.
Melodic and harmonic
An interval can be described as
* Vertical or
harmonic
A harmonic is a wave with a frequency that is a positive integer multiple of the ''fundamental frequency'', the frequency of the original periodic signal, such as a sinusoidal wave. The original signal is also called the ''1st harmonic'', the ...
if the two notes sound simultaneously
* Horizontal, linear, or
melodic if they sound successively.
Melodic intervals can be ''ascending'' (lower pitch precedes higher pitch) or ''descending''.
Diatonic and chromatic
In general,
* A ''
diatonic
Diatonic and chromatic are terms in music theory that are most often used to characterize Scale (music), scales, and are also applied to musical instruments, Interval (music), intervals, Chord (music), chords, Musical note, notes, musical sty ...
interval'' is an interval formed by two notes of a
diatonic scale
In music theory, a diatonic scale is any heptatonic scale that includes five whole steps (whole tones) and two half steps (semitones) in each octave, in which the two half steps are separated from each other by either two or three whole steps, ...
.
* A ''chromatic interval'' is a non-diatonic interval formed by two notes of a
chromatic scale.
The table
above depicts the 56 diatonic intervals formed by the notes of the C major scale (a diatonic scale). Notice that these intervals, as well as any other diatonic interval, can be also formed by the notes of a chromatic scale.
The distinction between diatonic and chromatic intervals is controversial, as it is based on the definition of diatonic scale, which is variable in the literature. For example, the interval B–E (a
diminished fourth, occurring in the
harmonic C-minor scale) is considered diatonic if the harmonic minor scales are considered diatonic as well. Otherwise, it is considered chromatic. For further details, see the
main article.
By a commonly used definition of diatonic scale (which excludes the
harmonic minor and
melodic minor scales), all perfect, major and minor intervals are diatonic. Conversely, no augmented or diminished interval is diatonic, except for the augmented fourth and diminished fifth.
The distinction between diatonic and chromatic intervals may be also sensitive to context. The above-mentioned 56 intervals formed by the C-major scale are sometimes called ''diatonic to C major''. All other intervals are called ''chromatic to C major''. For instance, the perfect fifth A–E is chromatic to C major, because A and E are not contained in the C major scale. However, it is diatonic to others, such as the A major scale.
Consonant and dissonant
Consonance and dissonance
In music, consonance and dissonance are categorizations of simultaneous or successive Sound, sounds. Within the Western tradition, some listeners associate consonance with sweetness, pleasantness, and acceptability, and dissonance with harshness ...
are relative terms that refer to the stability, or state of repose, of particular musical effects. Dissonant intervals are those that cause tension and desire to be ''resolved'' to consonant intervals.
These terms are relative to the usage of different compositional styles.
* In
15th- and 16th-century usage, perfect fifths and octaves, and major and minor thirds and sixths were considered harmonically consonant, and all other intervals dissonant, including the perfect fourth, which by 1473 was described (by
Johannes Tinctoris) as dissonant, except between the upper parts of a vertical sonority—for example, with a supporting third below ("6-3 chords"). In the
common practice period, it makes more sense to speak of consonant and dissonant chords, and certain intervals previously considered dissonant (such as minor sevenths) became acceptable in certain contexts. However, 16th-century practice was still taught to beginning musicians throughout this period.
*
Hermann von Helmholtz (1821–1894) theorised that dissonance was caused by the presence of
beats. von Helmholtz further believed that the beating produced by the upper partials of harmonic sounds was the cause of dissonance for intervals too far apart to produce beating between the
fundamentals. von Helmholtz then designated that two harmonic tones that shared common low partials would be more consonant, as they produced less beats. von Helmholtz disregarded partials above the seventh, as he believed that they were not audible enough to have significant effect. From this von Helmholtz categorises the octave, perfect fifth, perfect fourth, major sixth, major third, and minor third as consonant, in decreasing value, and other intervals as dissonant.
*
David Cope (1997) suggests the concept of interval strength,
[ Cope, David (1997). ''Techniques of the Contemporary Composer'', pp. 40–41. New York, New York: Schirmer Books. .] in which an interval's strength, consonance, or stability is determined by its approximation to a lower and stronger, or higher and weaker, position in the
harmonic series. See also:
Lipps–Meyer law and
#Interval root
All of the above analyses refer to vertical (simultaneous) intervals.
Simple and compound
A simple interval is an interval spanning at most one octave (see
Main intervals above). Intervals spanning more than one octave are called compound intervals, as they can be obtained by adding one or more octaves to a simple interval (see
below
Below may refer to:
*Earth
*Ground (disambiguation)
*Soil
*Floor
*Bottom (disambiguation)
Bottom may refer to:
Anatomy and sex
* Bottom (BDSM), the partner in a BDSM who takes the passive, receiving, or obedient role, to that of the top or ...
for details).
Steps and skips
Linear (melodic) intervals may be described as ''steps'' or ''skips''. A ''step'', or ''conjunct motion'',
[
Bonds, Mark Evan (2006).
''A History of Music in Western Culture'', p.123. 2nd ed. .]
is a linear interval between two consecutive notes of a scale. Any larger interval is called a ''skip'' (also called a ''leap''), or ''disjunct motion''.
In the
diatonic scale
In music theory, a diatonic scale is any heptatonic scale that includes five whole steps (whole tones) and two half steps (semitones) in each octave, in which the two half steps are separated from each other by either two or three whole steps, ...
, a step is either a
minor second (sometimes also called ''half step'') or
major second (sometimes also called ''whole step''), with all intervals of a
minor third or larger being skips.
For example, C to D (major second) is a step, whereas C to E (
major third) is a skip.
More generally, a step is a smaller or narrower interval in a musical line, and a skip is a wider or larger interval, where the categorization of intervals into steps and skips is determined by the
tuning system and the
pitch space used.
Melodic motion in which the interval between any two consecutive pitches is no more than a step, or, less strictly, where skips are rare, is called ''stepwise'' or ''conjunct'' melodic motion, as opposed to ''skipwise'' or ''disjunct'' melodic motions, characterized by frequent skips.
Enharmonic intervals
Two intervals are considered ''
enharmonic
In modern musical notation and tuning, an enharmonic equivalent is a note, interval, or key signature that is equivalent to some other note, interval, or key signature but "spelled", or named differently. The enharmonic spelling of a written n ...
'', or ''enharmonically equivalent'', if they both contain the same
pitches spelled in different ways; that is, if the notes in the two intervals are themselves enharmonically equivalent. Enharmonic intervals span the same number of
semitones.
For example, the four intervals listed in the table below are all enharmonically equivalent, because the notes F and G indicate the same pitch, and the same is true for A and B. All these intervals span four semitones.
When played as isolated chords on a
piano keyboard, these intervals are indistinguishable to the ear, because they are all played with the same two keys. However, in a musical context, the
diatonic function
In music, function (also referred to as harmonic function) is a term used to denote the relationship of a chord"Function", unsigned article, ''Grove Music Online'', . or a scale degree to a tonal centre. Two main theories of tonal functions ex ...
of the notes these intervals incorporate is very different.
The discussion above assumes the use of the prevalent tuning system,
12-tone equal temperament
Twelve-tone equal temperament (12-TET) is the musical system that divides the octave into 12 parts, all of which are equally tempered (equally spaced) on a logarithmic scale, with a ratio equal to the 12th root of 2 ( ≈ 1.05946). That resultin ...
("12-TET"). But in other historic
meantone temperaments, the pitches of pairs of notes such as F and G may not necessarily coincide. These two notes are enharmonic in 12-TET, but may not be so in another tuning system. In such cases, the intervals they form would also not be enharmonic. For example, in
quarter-comma meantone, all four intervals shown in the example above would be different.
Minute intervals
There are also a number of minute intervals not found in the chromatic scale or labeled with a diatonic function, which have names of their own. They may be described as
microtones, and some of them can be also classified as
comma
The comma is a punctuation mark that appears in several variants in different languages. It has the same shape as an apostrophe or single closing quotation mark () in many typefaces, but it differs from them in being placed on the baseline ...
s, as they describe small discrepancies, observed in some tuning systems, between
enharmonically equivalent notes. In the following list, the interval sizes in
cents are approximate.
* A ''
Pythagorean comma'' is the difference between twelve justly tuned perfect fifths and seven octaves. It is expressed by the
frequency ratio 531441:524288 (23.5 cents).
* A ''
syntonic comma'' is the difference between four justly tuned perfect fifths and two octaves plus a major third. It is expressed by the ratio 81:80 (21.5 cents).
* A ''
septimal comma'' is 64:63 (27.3 cents), and is the difference between the Pythagorean or 3-limit "7th" and the "harmonic 7th".
* A ''
diesis
In classical music from Western culture, a diesis ( , plural dieses ( , "difference"; Greek: δίεσις "leak" or "escape"Benson, Dave (2006). ''Music: A Mathematical Offering'', p.171. . Based on the technique of playing the aulos, where p ...
'' is generally used to mean the difference between three justly tuned major thirds and one octave. It is expressed by the ratio 128:125 (41.1 cents). However, it has been used to mean other small intervals: see
diesis
In classical music from Western culture, a diesis ( , plural dieses ( , "difference"; Greek: δίεσις "leak" or "escape"Benson, Dave (2006). ''Music: A Mathematical Offering'', p.171. . Based on the technique of playing the aulos, where p ...
for details.
* A ''
diaschisma'' is the difference between three octaves and four justly tuned perfect fifths plus two justly tuned major thirds. It is expressed by the ratio 2048:2025 (19.6 cents).
* A ''
schisma'' (also skhisma) is the difference between five octaves and eight justly tuned fifths plus one justly tuned major third. It is expressed by the ratio 32805:32768 (2.0 cents). It is also the difference between the Pythagorean and syntonic commas. (A schismic major third is a schisma different from a just major third, eight fifths down and five octaves up, F in C.)
* A ''
kleisma
In music theory and tuning, the kleisma (κλείσμα), or semicomma majeur, is a minute and barely perceptible comma type interval important to musical temperaments. It is the difference between six justly tuned minor thirds (each with a freq ...
'' is the difference between six
minor thirds and one ''tritave'' or ''perfect twelfth'' (an
octave
In music, an octave ( la, octavus: eighth) or perfect octave (sometimes called the diapason) is the interval between one musical pitch and another with double its frequency. The octave relationship is a natural phenomenon that has been refer ...
plus a
perfect fifth
In music theory, a perfect fifth is the Interval (music), musical interval corresponding to a pair of pitch (music), pitches with a frequency ratio of 3:2, or very nearly so.
In classical music from Western culture, a fifth is the interval fro ...
), with a frequency ratio of 15625:15552 (8.1 cents) ().
* A ''
septimal kleisma'' is the amount that two major thirds of 5:4 and a septimal major third, or supermajor third, of 9:7 exceeds the octave. Ratio 225:224 (7.7 cents).
* A ''
quarter tone
A quarter tone is a pitch halfway between the usual notes of a chromatic scale or an interval about half as wide (aurally, or logarithmically) as a semitone, which itself is half a whole tone. Quarter tones divide the octave by 50 cents each, a ...
'' is half the width of a
semitone, which is half the width of a
whole tone. It is equal to exactly 50 cents.
Compound intervals
A compound interval is an interval spanning more than one octave.
Conversely, intervals spanning at most one octave are called simple intervals (see
Main intervals below).
In general, a compound interval may be defined by a sequence or "stack" of two or more simple intervals of any kind. For instance, a major tenth (two staff positions above one octave), also called ''compound major third'', spans one octave plus one major third.
Any compound interval can be always decomposed into one or more octaves plus one simple interval. For instance, a major seventeenth can be decomposed into two octaves and one major third, and this is the reason why it is called a compound major third, even when it is built by adding up four fifths.
The diatonic number ''DN''
c of a compound interval formed from ''n'' simple intervals with diatonic numbers ''DN''
1, ''DN''
2, ..., ''DN''
n, is determined by:
:
which can also be written as:
:
The quality of a compound interval is determined by the quality of the simple interval on which it is based. For instance, a compound major third is a major tenth (1+(8−1)+(3−1) = 10), or a major seventeenth (1+(8−1)+(8−1)+(3−1) = 17), and a compound perfect fifth is a perfect twelfth (1+(8−1)+(5−1) = 12) or a perfect nineteenth (1+(8−1)+(8−1)+(5−1) = 19). Notice that two octaves are a fifteenth, not a sixteenth (1+(8−1)+(8−1) = 15). Similarly, three octaves are a twenty-second (1+3×(8−1) = 22), and so on.
Main compound intervals
It is also worth mentioning here the major seventeenth (28 semitones)—an interval larger than two octaves that can be considered a multiple of a perfect fifth (7 semitones) as it can be decomposed into four perfect fifths (7 × 4 = 28 semitones), or two octaves plus a major third (12 + 12 + 4 = 28 semitones). Intervals larger than a major seventeenth seldom come up, most often being referred to by their compound names, for example "two octaves plus a fifth" rather than "a 19th".
Intervals in chords
Chords are sets of three or more notes. They are typically defined as the combination of intervals starting from a common note called the
root of the chord. For instance a
major triad is a chord containing three notes defined by the root and two intervals (major third and perfect fifth). Sometimes even a single interval (
dyad) is considered a chord.
[ Károlyi, Ottó (1965), ''Introducing Music'', p. 63. Hammondsworth (England), and New York: Penguin Books. .] Chords are classified based on the quality and number of the intervals that define them.
Chord qualities and interval qualities
The main chord qualities are
major
Major (commandant in certain jurisdictions) is a military rank of commissioned officer status, with corresponding ranks existing in many military forces throughout the world. When used unhyphenated and in conjunction with no other indicators ...
,
minor
Minor may refer to:
* Minor (law), a person under the age of certain legal activities.
** A person who has not reached the age of majority
* Academic minor, a secondary field of study in undergraduate education
Music theory
*Minor chord
** Barb ...
,
augmented
Augment or augmentation may refer to:
Language
* Augment (Indo-European), a syllable added to the beginning of the word in certain Indo-European languages
*Augment (Bantu languages), a morpheme that is prefixed to the noun class prefix of nouns ...
,
diminished,
half-diminished, and
dominant.
The
symbols
A symbol is a mark, sign, or word that indicates, signifies, or is understood as representing an idea, object, or relationship. Symbols allow people to go beyond what is known or seen by creating linkages between otherwise very different conc ...
used for chord quality are similar to those used for interval quality (see above). In addition, + or aug is used for augmented, ° or dim for diminished, for half diminished, and dom for dominant (the symbol − alone is not used for diminished).
Deducing component intervals from chord names and symbols
The main rules to decode chord ''names or symbols'' are summarized below. Further details are given at
Rules to decode chord names and symbols.
# For 3-note chords (
triads),
major
Major (commandant in certain jurisdictions) is a military rank of commissioned officer status, with corresponding ranks existing in many military forces throughout the world. When used unhyphenated and in conjunction with no other indicators ...
or
minor
Minor may refer to:
* Minor (law), a person under the age of certain legal activities.
** A person who has not reached the age of majority
* Academic minor, a secondary field of study in undergraduate education
Music theory
*Minor chord
** Barb ...
always refer to the interval of the third above the
root note, while
augmented
Augment or augmentation may refer to:
Language
* Augment (Indo-European), a syllable added to the beginning of the word in certain Indo-European languages
*Augment (Bantu languages), a morpheme that is prefixed to the noun class prefix of nouns ...
and
diminished always refer to the interval of the fifth above root. The same is true for the corresponding symbols (e.g., Cm means C
m3, and C+ means C
+5). Thus, the terms third and
fifth and the corresponding symbols 3 and 5 are typically omitted. This rule can be generalized to all kinds of chords, provided the above-mentioned qualities appear immediately after the root note, or at the beginning of the chord name or symbol. For instance, in the chord symbols Cm and Cm
7, m refers to the interval m3, and 3 is omitted. When these qualities do not appear immediately after the root note, or at the beginning of the name or symbol, they should be considered
interval qualities, rather than chord qualities. For instance, in Cm
M7 (
minor major seventh chord), m is the chord quality and refers to the m3 interval, while M refers to the M7 interval. When the
number of an extra interval is specified immediately after chord quality, the quality of that interval may coincide with chord quality (e.g., CM
7 = CM
M7). However, this is not always true (e.g., Cm
6 = Cm
M6, C+
7 = C+
m7, CM
11 = CM
P11). See
main article for further details.
# Without contrary information, a
major third interval and a
perfect fifth
In music theory, a perfect fifth is the Interval (music), musical interval corresponding to a pair of pitch (music), pitches with a frequency ratio of 3:2, or very nearly so.
In classical music from Western culture, a fifth is the interval fro ...
interval (
major triad) are implied. For instance, a C chord is a C major triad, and the name C minor seventh (Cm
7) implies a minor 3rd by rule 1, a perfect 5th by this rule, and a
minor 7th by definition (see below). This rule has one exception (see next rule).
# When the fifth interval is
diminished, the third must be minor. This rule overrides rule 2. For instance, Cdim
7 implies a diminished 5th by rule 1, a minor 3rd by this rule, and a diminished 7th by definition (see below).
#Names and symbols that contain only a plain
interval number (e.g., “seventh chord”) or the
chord root and a number (e.g., “C seventh”, or C
7) are interpreted as follows:
#*If the number is 2, 4, 6, etc., the chord is a major
added tone chord (e.g., C
6 = C
M6 = C
add6) and contains, together with the implied major triad, an extra
major 2nd,
perfect 4th
A fourth is a musical interval encompassing four staff positions in the music notation of Western culture, and a perfect fourth () is the fourth spanning five semitones (half steps, or half tones). For example, the ascending interval from C to ...
, or
major 6th (see
names and symbols for added tone chords).
#*If the number is 7, 9, 11, 13, etc., the chord is
dominant (e.g., C
7 = C
dom7) and contains, together with the implied major triad, one or more of the following extra intervals: minor 7th, major 9th, perfect 11th, and major 13th (see names and symbols for
seventh and
extended chords).
#*If the number is 5, the chord (technically not a chord in the traditional sense, but a
dyad) is a
power chord. Only the root, a perfect fifth and usually an octave are played.
The table shows the intervals contained in some of the main chords (component intervals), and some of the symbols used to denote them. The interval qualities or numbers in
boldface font can be deduced from chord name or symbol by applying rule 1. In symbol examples, C is used as chord root.
Size of intervals used in different tuning systems
In this table, the interval widths used in four different tuning systems are compared. To facilitate comparison,
just intervals as provided by 5-limit tuning (see
symmetric scale n.1) are shown in
bold
In typography, emphasis is the strengthening of words in a text with a font in a different style from the rest of the text, to highlight them. It is the equivalent of prosody stress in speech.
Methods and use
The most common methods in W ...
font, and the values in cents are
rounded
Round or rounds may refer to:
Mathematics and science
* The contour of a closed curve or surface with no sharp corners, such as an ellipse, circle, rounded rectangle, cant, or sphere
* Rounding, the shortening of a number to reduce the num ...
to integers. Notice that in each of the
non-equal tuning systems, by definition the width of ''each'' type of interval (including the semitone) changes depending on the note that starts the interval. This is the art of
just intonation
In music, just intonation or pure intonation is the tuning of musical intervals
Interval may refer to:
Mathematics and physics
* Interval (mathematics), a range of numbers
** Partially ordered set#Intervals, its generalization from numbers to ...
. In
equal temperament
An equal temperament is a musical temperament or tuning system, which approximates just intervals by dividing an octave (or other interval) into equal steps. This means the ratio of the frequencies of any adjacent pair of notes is the same, wh ...
, the intervals are never precisely in tune with each other. This is the price of using equidistant intervals in a 12-tone scale. For simplicity, for some types of interval the table shows only one value (the
most often observed one).
In
-comma meantone, by definition 11 perfect fifths have a size of approximately 697 cents (700 − ''ε'' cents, where ''ε'' ≈ 3.42 cents); since the average size of the 12 fifths must equal exactly 700 cents (as in equal temperament), the other one must have a size of about 738 cents (700 + 11''ε'', the
wolf fifth or
diminished sixth); 8 major thirds have size about 386 cents (400 − 4''ε''), 4 have size about 427 cents (400 + 8''ε'', actually
diminished fourths), and their average size is 400 cents. In short, similar differences in width are observed for all interval types, except for unisons and octaves, and they are all multiples of ε (the difference between the -comma meantone fifth and the average fifth). A more detailed analysis is provided at
-comma meantone Size of intervals. Note that -comma meantone was designed to produce just major thirds, but only 8 of them are just (5:4, about 386 cents).
The
Pythagorean tuning
Pythagorean tuning is a system of musical tuning in which the frequency ratios of all intervals are based on the ratio 3:2.Bruce Benward and Marilyn Nadine Saker (2003). ''Music: In Theory and Practice'', seventh edition, 2 vols. (Boston: Mc ...
is characterized by smaller differences because they are multiples of a smaller ''ε'' (''ε'' ≈ 1.96 cents, the difference between the Pythagorean fifth and the average fifth). Notice that here the fifth is wider than 700 cents, while in most
meantone temperaments, including -comma meantone, it is tempered to a size smaller than 700. A more detailed analysis is provided at .
The
5-limit tuning
Five-limit tuning, 5-limit tuning, or 5-prime-limit tuning (not to be confused with 5-odd-limit tuning), is any system for tuning a musical instrument that obtains the frequency of each note by multiplying the frequency of a given reference note ...
system uses just tones and semitones as building blocks, rather than a stack of perfect fifths, and this leads to even more varied intervals throughout the scale (each kind of interval has three or four different sizes). A more detailed analysis is provided at . Note that 5-limit tuning was designed to maximize the number of just intervals, but even in this system some intervals are not just (e.g., 3 fifths, 5 major thirds and 6 minor thirds are not just; also, 3 major and 3 minor thirds are
wolf intervals).
The above-mentioned symmetric scale 1, defined in the 5-limit tuning system, is not the only method to obtain
just intonation
In music, just intonation or pure intonation is the tuning of musical intervals
Interval may refer to:
Mathematics and physics
* Interval (mathematics), a range of numbers
** Partially ordered set#Intervals, its generalization from numbers to ...
. It is possible to construct juster intervals or just intervals closer to the equal-tempered equivalents, but most of the ones listed above have been used historically in equivalent contexts. In particular, the
asymmetric version of the 5-limit tuning scale provides a juster value for the minor seventh (9:5, rather than 16:9). Moreover, the
tritone (augmented fourth or diminished fifth), could have other just ratios; for instance, 7:5 (about 583 cents) or 17:12 (about 603 cents) are possible alternatives for the augmented fourth (the latter is fairly common, as it is closer to the equal-tempered value of 600 cents). The 7:4 interval (about 969 cents), also known as the
harmonic seventh, has been a contentious issue throughout the history of music theory; it is 31 cents flatter than an equal-tempered minor seventh. For further details about reference ratios, see .
In the diatonic system, every interval has one or more ''
enharmonic
In modern musical notation and tuning, an enharmonic equivalent is a note, interval, or key signature that is equivalent to some other note, interval, or key signature but "spelled", or named differently. The enharmonic spelling of a written n ...
equivalents'', such as
augmented second for
minor third.
Interval root
Although intervals are usually designated in relation to their lower note,
David Cope and
Hindemith both suggest the concept of interval root. To determine an interval's root, one locates its nearest approximation in the harmonic series. The root of a perfect fourth, then, is its ''top'' note because it is an octave of the fundamental in the hypothetical harmonic series. The bottom note of every odd diatonically numbered intervals are the roots, as are the tops of all even numbered intervals. The root of a collection of intervals or a chord is thus determined by the interval root of its strongest interval.
As to its usefulness, Cope
provides the example of the final tonic chord of some popular music being traditionally analyzable as a "submediant six-five chord" (
added sixth chords by popular terminology), or a
first inversion seventh chord (possibly the dominant of the mediant V/iii). According to the interval root of the strongest interval of the chord (in first inversion, CEGA), the perfect fifth (C–G), is the bottom C, the tonic.
Interval cycles
Interval cycles, "unfold
.e., repeata single recurrent interval in a series that closes with a return to the initial pitch class", and are notated by
George Perle using the letter "C", for cycle, with an interval-class integer to distinguish the interval. Thus the diminished-seventh chord would be C3 and the augmented triad would be C4. A superscript may be added to distinguish between transpositions, using 0–11 to indicate the lowest pitch class in the cycle.
[ Perle, George (1990). ''The Listening Composer'', p. 21. California: University of California Press. .]
Alternative interval naming conventions
As shown below, some of the above-mentioned intervals have alternative names, and some of them take a specific alternative name in
Pythagorean tuning
Pythagorean tuning is a system of musical tuning in which the frequency ratios of all intervals are based on the ratio 3:2.Bruce Benward and Marilyn Nadine Saker (2003). ''Music: In Theory and Practice'', seventh edition, 2 vols. (Boston: Mc ...
,
five-limit tuning, or meantone temperament tuning systems such as
quarter-comma meantone. All the intervals with prefix ''sesqui-'' are
justly tuned, and their
frequency ratio, shown in the table, is a
superparticular number (or epimoric ratio). The same is true for the octave.
Typically, a
comma
The comma is a punctuation mark that appears in several variants in different languages. It has the same shape as an apostrophe or single closing quotation mark () in many typefaces, but it differs from them in being placed on the baseline ...
is a diminished second, but this is not always true (for more details, see
Alternative definitions of comma). For instance, in
Pythagorean tuning
Pythagorean tuning is a system of musical tuning in which the frequency ratios of all intervals are based on the ratio 3:2.Bruce Benward and Marilyn Nadine Saker (2003). ''Music: In Theory and Practice'', seventh edition, 2 vols. (Boston: Mc ...
the diminished second is a descending interval (524288:531441, or about −23.5 cents), and the
Pythagorean comma is its opposite (531441:524288, or about 23.5 cents). 5-limit tuning defines
four kinds of comma, three of which meet the definition of diminished second, and hence are listed in the table below. The fourth one, called
syntonic comma (81:80) can neither be regarded as a diminished second, nor as its opposite. See
Diminished seconds in 5-limit tuning for further details.
Additionally, some cultures around the world have their own names for intervals found in their music. For instance, 22 kinds of intervals, called
shrutis, are canonically defined in
Indian classical music
Indian classical music is the classical music of the Indian subcontinent. It has two major traditions: the North Indian classical music known as '' Hindustani'' and the South Indian expression known as '' Carnatic''. These traditions were not ...
.
Latin nomenclature
Up to the end of the 18th century,
Latin was used as an official language throughout Europe for scientific and music textbooks. In music, many English terms are derived from Latin. For instance,
semitone is from Latin '.
The prefix semi- is typically used herein to mean "shorter", rather than "half". Namely, a semitonus, semiditonus, semidiatessaron, semidiapente, semihexachordum, semiheptachordum, or semidiapason, is shorter by one semitone than the corresponding whole interval. For instance, a semiditonus (3 semitones, or about 300 cents) is not half of a ditonus (4 semitones, or about 400 cents), but a ditonus shortened by one semitone. Moreover, in
Pythagorean tuning
Pythagorean tuning is a system of musical tuning in which the frequency ratios of all intervals are based on the ratio 3:2.Bruce Benward and Marilyn Nadine Saker (2003). ''Music: In Theory and Practice'', seventh edition, 2 vols. (Boston: Mc ...
(the most commonly used tuning system up to the 16th century), a semitritonus (d5) is smaller than a tritonus (A4) by one
Pythagorean comma (about a quarter of a semitone).
Non-diatonic intervals
Intervals in non-diatonic scales can be named using analogs of the diatonic interval names, by using a diatonic interval of similar size and distinguishing it by varying the quality, or by adding other modifiers. For example, the just interval 7/6 may be referred to as a ''subminor third'', since it is ~267 cents wide, which is narrower than a minor third (300 cents in 12-TET, ~316 cents for the just interval 6/5), or as the ''
septimal minor third'', since it is a
7-limit interval. These names refer just to the individual interval's size, and the interval number need not correspond to the number of scale degrees of a (heptatonic) scale. This naming is particularly common in
just intonation
In music, just intonation or pure intonation is the tuning of musical intervals
Interval may refer to:
Mathematics and physics
* Interval (mathematics), a range of numbers
** Partially ordered set#Intervals, its generalization from numbers to ...
and
microtonal scales.
The most common of these extended qualities are a
neutral interval, in between a minor and major interval; and
subminor and supermajor intervals, respectively narrower than a minor or wider than a major interval. The exact size of such intervals depends on the tuning system, but they often vary from the diatonic interval sizes by about a
quarter tone
A quarter tone is a pitch halfway between the usual notes of a chromatic scale or an interval about half as wide (aurally, or logarithmically) as a semitone, which itself is half a whole tone. Quarter tones divide the octave by 50 cents each, a ...
(50 cents, half a chromatic step). For example, the
neutral second, the characteristic interval of
Arabic music, in 24-TET is 150 cents, exactly halfway between a minor second and major second. Combined, these yield the progression ''diminished, subminor, minor, neutral, major, supermajor, augmented'' for seconds, thirds, sixths, and sevenths. This naming convention can be extended to unisons, fourths, fifths, and octaves with ''sub'' and ''super'', yielding the progression ''diminished, sub, perfect, super, augmented''. This allows one to name all intervals in 24-TET or 31-TET, the latter of which was used by
Adriaan Fokker. Various further extensions are used in
Xenharmonic music.
Pitch-class intervals
In post-tonal or
atonal theory, originally developed for equal-tempered European classical music written using the
twelve-tone technique or
serialism
In music, serialism is a method of Musical composition, composition using series of pitches, rhythms, dynamics, timbres or other elements of music, musical elements. Serialism began primarily with Arnold Schoenberg's twelve-tone technique, thou ...
,
integer notation is often used, most prominently in
musical set theory. In this system, intervals are named according to the number of half steps, from 0 to 11, the largest interval class being 6.
In atonal or musical set theory, there are numerous types of intervals, the first being the
ordered pitch interval, the distance between two pitches upward or downward. For instance, the interval from C upward to G is 7, and the interval from G downward to C is −7. One can also measure the distance between two pitches without taking into account direction with the unordered pitch interval, somewhat similar to the interval of tonal theory.
The interval between pitch classes may be measured with ordered and unordered pitch-class intervals. The ordered one, also called directed interval, may be considered the measure upwards, which, since we are dealing with pitch classes, depends on whichever pitch is chosen as 0. For unordered pitch-class intervals, see
interval class.
Generic and specific intervals
In
diatonic set theory,
specific and
generic intervals are distinguished. Specific intervals are the interval class or number of semitones between scale steps or collection members, and generic intervals are the number of diatonic scale steps (or staff positions) between notes of a collection or scale.
Notice that staff positions, when used to determine the conventional interval number (second, third, fourth, etc.), are counted including the position of the lower note of the interval, while generic interval numbers are counted excluding that position. Thus, generic interval numbers are smaller by 1, with respect to the conventional interval numbers.
Comparison
Generalizations and non-pitch uses
The term "interval" can also be generalized to other music elements besides pitch.
David Lewin's ''Generalized Musical Intervals and Transformations'' uses interval as a generic measure of distance between
time points,
timbres, or more abstract musical phenomena.
[Ockelford, Adam (2005). ''Repetition in Music: Theoretical and Metatheoretical Perspectives'', p. 7. . "Lewin posits the notion of musical 'spaces' made up of elements between which we can intuit 'intervals'....Lewin gives a number of examples of musical spaces, including the diatonic gamut of pitches arranged in scalar order; the 12 pitch classes under equal temperament; a succession of time-points pulsing at regular temporal distances one time unit apart; and a family of durations, each measuring a temporal span in time units....transformations of timbre are proposed that derive from changes in the spectrum of partials..."]
For example, an interval between two bell-like sounds, which have no pitch salience, is still perceptible. When two tones have similar acoustic spectra (sets of partials), the interval is just the distance of the shift of a tone spectrum along the frequency axis, so linking to pitches as reference points is not necessary. The same principle naturally applies to pitched tones (with similar harmonic spectra), which means that intervals can be perceived "directly" without pitch recognition. This explains in particular the predominance of interval hearing over absolute pitch hearing.
See also
*
Circle of fifths
*
Ear training
*
List of meantone intervals
*
List of pitch intervals
*
Music and mathematics
*
Pseudo-octave
*
Regular temperament
Notes
References
External links
* Gardner, Carl E. (1912)
''Essentials of Music Theory'' p. 38
"Interval" ''
Encyclopædia Britannica''
Lissajous Curves: Interactive simulation of graphical representations of musical intervals, beats, interference, vibrating stringsElements of Harmony: Vertical Intervals*
{{DEFAULTSORT:Interval