Double Counterpoint

In music theory, an inversion is a type of change to intervals, chords, voices (in counterpoint), and melodies. In each of these cases, "inversion" has a distinct but related meaning. The concept of inversion also plays an important role in musical set theory.

Intervals

An interval is inverted by raising or lowering either of the notes by one or more octaves so that the positions of the notes reverse (i.e. the higher note becomes the lower note and vice versa). For example, the inversion of an interval consisting of a C with an E above it (the third measure below) is an E with a C above it – to work this out, the C may be moved up, the E may be lowered, or both may be moved.

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The tables to the right show the changes in interval quality and interval number under inversion. Thus, perfect intervals remain perfect, major intervals become minor and vice versa, and augmented intervals become diminished and vice versa. (Doubly diminished intervals become doubly augmented intervals, and vice versa.).

Traditional interval numbers add up to nine: seconds become sevenths and vice versa, thirds become sixths and vice versa, and so on. Thus, a perfect fourth becomes a perfect fifth, an augmented fourth becomes a diminished fifth, and a simple interval (that is, one that is narrower than an octave) and its inversion, when added together, equal an octave. See also complement (music).

Chords

A chord's inversion describes the relationship of its lowest notes to the other notes in the chord. For instance, a C-major triad contains the tones C, E and G; its inversion is determined by which of these tones is the lowest note (or bass note) in the chord.

The term ''inversion'' often categorically refers to the different possibilities, though it may also be restricted to only those chords where the lowest note is not also the root of the chord. Texts that follow this restriction may use the term ''position'' instead, to refer to all of the possibilities as a category.

Root position and inverted chords

A chord is in root position if its root is the lowest note. This is sometimes known as the ''parent chord'' of its inversions. For example, the root of a C-major triad is C, so a C-major triad will be in root position if C is the lowest note and its third and fifth (E and G, respectively) are above it – or, on occasion, don't sound at all.

The following C-major triads are in root position, since the lowest note is the root. The rearrangement of the notes above the bass into different octaves (here, the note E) and the doubling of notes (here, G), is known as ''voicing'' – the first voicing is close voicing, while the second is open.

In an inverted chord, the root is the lowest note. The inversions are numbered in the order their lowest notes appear in a close root-position chord (from bottom to top).

As shown above, a C-major triad (or any chord with three notes) has two inversions:

# In the first inversion, the lowest note is E – the third of the triad – with the fifth and the root stacked above it (the root now shifted an octave higher), forming the intervals of a minor third and a minor sixth above the inverted bass of E, respectively.
# In the second inversion, the lowest note is G – the fifth of the triad – with the root and the third above it (both again shifted an octave higher), forming a fourth and a sixth above the (inverted) bass of G, respectively.

Chords with four notes (such as seventh chords) work in a similar way, except that they have three inversions, instead of just two. The three inversions of a G dominant seventh chord are:

Notating root position and inversions

=Figured bass

=

Figured bass is a notation in which chord inversions are indicated by Arabic numerals (the ''figures'') either above or below the bass notes, indicating a harmonic progression. Each numeral expresses the interval that results from the voices above it (usually assuming octave equivalence). For example, in root-position triad C–E–G, the intervals above bass note C are a third and a fifth, giving the figures . If this triad were in first inversion (e.g., E–G–C), the figure would apply, due to the intervals of a third and a sixth appearing above the bass note E.

Certain conventional abbreviations exist in the use of figured bass. For instance, root-position triads appear without symbols (the is understood), and first-inversion triads are customarily abbreviated as just , rather than . The table to the right displays these conventions.

Figured-bass numerals express distinct intervals in a chord only as they relate to the bass note. They make no reference to the key of the progression (unlike Roman-numeral harmonic analysis), they do not express intervals pairs of upper voices themselves – for example, in a C–E–G triad, the figured bass does not signify the interval relationship between E–G, and they do not express notes in upper voices that double, or are unison with, the bass note.

However, the figures are often used on their own (without the bass) in music theory simply to specify a chord's inversion. This is the basis for the terms given above such as " chord" for a second inversion triad. Similarly, in harmonic analysis the term I⁶ refers to a tonic triad in first inversion.

=Popular-music notation

=
A notation for chord inversion often used in popular music is to write the name of a chord followed by a forward slash and then the name of the bass note. This is called a '' slash chord''. For example, a C-major chord in first inversion (i.e., with E in the bass) would be notated as "C/E". This notation works even when a note not present in a triad is the bass; for example, F/G is a way of notating a particular approach to voicing an Fadd⁹ chord (G–F–A–C). This is quite different from analytical notations of '' function''; e.g., the notation "IV/V" represents the subdominant of the dominant.

=Lower-case letters

=
Lower-case letters may be placed after a chord symbol to indicate root position or inversion. Hence, in the key of C major, a C-major chord in first inversion may be notated as ''Ib'', indicating ''chord I, first inversion''. (Less commonly, the root of the chord is named, followed by a lower-case letter: ''Cb''). If no letter is added, the chord is assumed to be in root inversion, as though ''a'' had been inserted.

History

In Jean-Philippe Rameau's '' Treatise on Harmony'' (1722), chords in different inversions are considered functionally equivalent and he has been credited as being the first person to recognise their underlying similarity. Earlier theorists spoke of different intervals using alternative descriptions, such as the ''regola delle terze e seste'' ("rule of sixths and thirds"). This required the resolution of imperfect consonances to perfect ones and would not propose, for example, a resemblance between and chords.

Counterpoint

In contrapuntal inversion, two melodies, having previously accompanied each other once, accompany each other again but with the melody that had been in the high voice now in the low, and vice versa. The action of changing the voices is called ''textural inversion''. This is called ''double counterpoint'' when two voices are involved and ''triple counterpoint'' when three are involved. The inversion in two-part invertible counterpoint is also known as ''rivolgimento''.

Invertible counterpoint

Themes that be developed in this way without violating the rules of counterpoint are said to be in ''invertible counterpoint''. Invertible counterpoint can occur at various intervals, usually the octave, less often at the tenth or twelfth. To calculate the interval of inversion, add the intervals by which each voice has moved and subtract one. For example: If motif A in the high voice moves down a sixth, and motif B in the low voice moves up a fifth, in such a way as to result in A and B having exchanged registers, then the two are in double counterpoint at the tenth (6 + 5 – 1 = 10).

In J.S. Bach's ''The Art of Fugue'', the first canon is at the octave, the second canon at the tenth, the third canon at the twelfth, and the fourth canon in augmentation and contrary motion. Other exemplars can be found in the fugues i
G minor
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xternal Shockwave moviesfrom J.S. Bach's '' The Well-Tempered Clavier,'' Book 2, both of which contain invertible counterpoint at the octave, tenth, and twelfth.

Examples

For example, in the keyboard prelude in A major from J.S. Bach's ''The Well-Tempered Clavier'', Book 1, the following passage, from bars 9–18, involves two lines, one in each hand:

When this passage returns in bars 25–35 these lines are exchanged:

J.S. Bach's Three-Part Invention in F minor, BWV 795 involves exploring the combination of three themes. Two of these are announced in the opening two bars. A third idea joins them in bars 3–4. When this passage is repeated a few bars later in bars 7–9, the three parts are interchanged:

The piece goes on to explore four of the six possible permutations of how these three lines can be combined in counterpoint.

One of the most spectacular examples of invertible counterpoint occurs in the finale of Mozart's ''Jupiter Symphony''. Here, no less than five themes are heard together:

The whole passage brings the symphony to a conclusion in a blaze of brilliant orchestral writing. According to Tom Service:

Melodies

A melody is inverted by flipping it "upside-down", reversing the melody's contour. For instance, if the original melody has a rising major third, then the inverted melody has a falling major third (or, especially in tonal music, perhaps a falling third).

According to ''The Harvard Dictionary of Music'', "The intervals between successive pitches may remain exact or, more often in tonal music, they may be the equivalents in the diatonic scale. Hence c'–d–e' may become c'–b–a (where the first descent is by a semitone rather than by a whole tone) instead of c'–b–a." Moreover, the inversion start on the same pitch as the original melody, but it doesn't have to, as illustrated by the example to the right.

Twelve-tone music

In twelve-tone technique, the inversion of a tone row is one of its four traditional permutations (the others being the prime form, the retrograde, and the retrograde inversion). These four permutations (labeled ''p''rime, ''r''etrograde, ''i''nversion, and ''r''etrograde ''i''nversion) for the tone row used in Arnold Schoenberg's Variations for Orchestra, Op. 31 are shown below.

In set theory, the inverse operation is sometimes designated as $T_nI$, where $I$ means "invert" and $T_n$ means "transpose by some interval $n$" measured in number of semitones. Thus, inversion is a combination of an inversion followed by a transposition. To apply the inversion operation $I$, you subtract the pitch class, in integer notation, from 12 (by convention, inversion is around pitch class 0). Then we apply the transposition operation $T_n$ by adding $n$. For example, to calculate $T_5I(3)$, first subtract 3 from 12 (giving 9) and then add 5 (giving 14, which is equivalent to 2). Thus, $T_5I(3)=2$. To invert a set of pitches, simply invert each pitch in the set in turn.

Inversional equivalency and symmetry

Set theory

In set theory, ''inversional equivalency'' is the concept that intervals, chords, and other sets of pitches are the same when inverted. It is similar to enharmonic equivalency, octave equivalency and even transpositional equivalency. Inversional equivalency is used little in tonal theory, though it is assumed that sets that can be inverted into each other are remotely in common. However, they are only assumed identical or nearly identical in musical set theory.

Sets are said to be inversionally symmetrical if they map onto themselves under inversion. The pitch that the sets must be inverted around is said to be the axis of symmetry (or center). An axis may either be at a specific pitch or halfway between two pitches (assuming that microtones are not used). For example, the set C–E–E–F–G–B has an axis at F, and an axis, a tritone away, at B if the set is listed as F–G–B–C–E–E. As another example, the set C–E–F–F–G–B has an axis at the dyad F/F and an axis at B/C if it is listed as F–G–B–C–E–F.

Jazz theory

In jazz theory, a pitch axis is the center around which a melody is inverted.Pease, Ted (2003). ''Jazz Composition: Theory and Practice'', p.152. .

The "pitch axis" works in the context of the compound operation transpositional inversion, where transposition is carried out after inversion. However, unlike in set theory, the transposition may be a chromatic or diatonic transposition. Thus, if D-A-G (P5 up, M2 down) is inverted to D-G-A (P5 down, M2 up) the "pitch axis" is D. However, if it is inverted to C-F-G the pitch axis is G while if the pitch axis is A, the melody inverts to E-A-B.

The notation of octave position may determine how many lines and spaces appear to share the axis. The pitch axis of D-A-G and its inversion A-D-E either appear to be between C/B or the single pitch F.

See also

* Voicing (music)
* Pitch axis theory
* Retrograde inversion

Notes

References

External links

Chord Inversions and Exercises for Jazz Guitar

{{DEFAULTSORT:Inversion (Music)
Melody
Musical symmetry
Harmony
Voicing (music)