(Only 8 diatonic intervals. The rest are chromatic)
How do you explain size?
-How many lines and spaces are there? (Include the bottom and top; space, line, space; 3rd)
-Letter names (C, D, E; 3rd)
How do you explain interval quality?
-The way it sounds and fits in the major scale.
-You can find any interval starting on “Do” going up (ascending). These can be major, minor, or perfect in quality.
-You can group Perfect, Augmented, and Diminished together (Perfect heiarchy). Also, major and minor can be grouped together (major/minor heiarchy).
Harmonic vs Melodic
-Harmonic intervals are pitches that are played simultaneously.
-Melodic are played consecutively, or not at the same time.
What is the difference between a simple and compound interval?
-Simple are 1-7.
-Compound is adding 7 to to a simple interval.
Diatonic vs Chromatic
-Diatonic intervals occur within the key signature.
-Chromatic intervals have altered notes.
How do inversions work?
-You move one note an octave towards the other note. This is its inversion.
-Subtract the original interval from 9 (gives you size) and alter the quality (minor changes to major and vice versa, augmented becomes diminished and vice versa, perfect becomes perfect because it’s perfect)
How do you explain interval quality?
-Heirarchy of qualities from biggest to smallest with major and minor: Augmented, Major, minor, diminished (A, M, m, d). The simple interval sizes in the major/minor heirarchy are 2, 3, 6, and 7.
-Heirarchy of qualities from biggest to smallest with perfect intervals: Augmented, Perfect, diminished (A, P, d). The simple interval sizes in the Perfect heirarchy are 1, 4, and 5.
-Perfect intervals and major/minor intervals do not coexist.
-Qualities come from counting half steps.
-In a major scale, any interval going from the tonic (first note) to any other note in the scale ascending is either a Perfect quality or a Major quality. In a major scale, any interval going from the tonic (first note) to any other note in the scale descending is either Perfect quality or minor quality.
-The way it sounds and fits in the major scale.
-You can find any interval starting on “Do” going up (ascending). These can be major, minor, or perfect in quality.
-Ways to practice interval quality: Know your scales!! If you know your scales and the qualities within them, it is much easier to know what the quality of any two pitches are.
An interval is the distance between two pitches, usually measured as a number of steps on a scale.
A dyad is a pair of pitches sounding together (in other words, a two-note chord). Since a dyad is defined by the interval between the two pitches, dyads are often simply called intervals.
Thus, the term interval regularly refers both to the distance between two pitches on a scale and to a dyad whose pitches are separated by that distance.
More commonly for tonal music, we are interested in the number of steps on the diatonic (major or minor) scale. This is a bit tricky—not because it’s difficult, but because it’s counter-intuitive. Unfortunately, the system is too old and well engrained to change it now! But once you get past the initial strangeness, diatonic intervals are manageable.
When identifying a diatonic interval, begin with the letter names only. That is, treat C, C-sharp, and C-flat all as C for the time being. Next, count the number of steps (different letters) between the two pitches in question, including both pitches in your count. This gives you the generic interval.
For example, from C4 to E4, counting both C and E, there are three diatonic steps (three letter names): C, D, E. Thus, the generic interval for C4–E4 is a third. The same is true for any C to any E: C#4 to E4, Cb4 to E#4, etc. They are all diatonic thirds.
Often more specificity is needed than generic intervals can provide. That specificity comes in the form of an interval’s quality. Combining quality with a generic interval name produces a specific interval.
There are five possible interval qualities:
To obtain an interval’s quality, find both the generic interval and the chromatic interval. Then consult the following table to find the specific interval.
unis. | 2nd | 3rd | 4th | 5th | 6th | 7th | oct. | |
---|---|---|---|---|---|---|---|---|
i0 | P1 | d2 | ||||||
i1 | A1 | m2 | ||||||
i2 | M2 | d3 | ||||||
i3 | A2 | m3 | ||||||
i4 | M3 | d4 | ||||||
i5 | A3 | P4 | ||||||
i6 | A4 | d5 | ||||||
i7 | P5 | d6 | ||||||
i8 | A5 | m6 | ||||||
i9 | M6 | d7 | ||||||
i10 | A6 | m7 | ||||||
i11 | M7 | d8 | ||||||
i12 | A7 | P8 |
For example, C4–E4 is a generic third, and has a chromatic interval of i4. A third that encompasses four semitones is a major third (M3). Note that both generic interval and chromatic interval are necessary to find the specific interval, since there are multiple specific diatonic intervals for each generic interval and for each chromatic interval.
Note that some generic intervals can be augmented, perfect, or diminished, and other intervals can be augmented, major, minor, or diminished. There is no generic interval that can be both major/minor and perfect; if it can be major or minor, it cannot be perfect, and if it can be perfect, it cannot be major or minor. An augmented version of an interval is always one semitone wider than major or perfect; diminished is always one semitone smaller than minor or perfect.
Solfège can also help to determine the specific interval. Each pair of solfège syllables will have the same interval, no matter what the key, as long as it is clear which syllable is the lower pitch and which is the upper pitch. Memorizing the intervals between solfège pairs can help speed along your analysis of dyads as they appear in music. For example, knowing that do–mi, fa–la, and sol–ti are always major thirds and knowing that re–fa, mi–sol, la–do, and ti–re are always minor thirds will allow for faster analysis of dyads in major keys.
The simplest way to measure intervals, particularly at the keyboard, is to count the number of half-steps, or semitones, between two pitches. To determine the chromatic interval between C4 and E4, for example, start at C4 and ascend the chromatic scale to E4, counting steps along the way: C#4, D4, D#4, E4. E4 is four semitones higher than C4. Chromatic intervals are notated with a lower-case i followed by an Arabic numeral for the number of semitones. C4–E4 is four semitones, or i4.
The intervals discussed above, from unison to octave, are called simple intervals. Any interval larger than an octave is considered a compound interval. Take the interval C4 to E5. The generic interval is a tenth. However, it functions the same as C4 to E4 in almost all musical circumstances. Thus, the tenth C4–E5 is also called a compound third. A compound interval takes the same quality as the corresponding simple interval. If C4–E4 is a major third, then C4–E5 is a major tenth.
In addition to C4–E4 and C4–E5, E4–C5 also shares a similar sound and musical function. In fact, any dyad that keeps the same two pitch classes but changes register will have a similar sound and function. However, the fact that E4–C5 has E as its lowest pitch instead of C means that it has a different generic interval: E4–C5 is a sixth, not a third. Because of that difference, it will also play a different musical function in some circumstances. However, there is no escaping the relationship.
Dyads formed by the same two pitch classes, but with different pitch classes on bottom and on top, are said to be inversions of each other, because the pitch classes are inverted. Likewise, the intervals marked off by those inverted dyads are said to be inversions of each other.
Again, take C4–E4 (major third) and E4–C5 (minor sixth). These two dyads have the same two pitch classes, but one has C on bottom and E on top, while the other has E on bottom and C on top. Thus, they are inversions of each other.
Three relationships exhibited by these two dyads hold for all interval inversions.
First, the chromatic intervals add up to 12. (C4–E4 = i4; E4–C5 = i8; i4 + i8 = i12) This is because the two intervals add up to an octave (with an overlap on E4).
Second, the two generic interval values add up to nine (a third plus a sixth, or 3 + 6). This is because the two intervals add up to an octave (8), and one of the notes is counted twice when you add them together. (Remember the counterintuitive way of counting off diatonic intervals, where the number includes the starting and ending pitches, and when combining inverted intervals, there is always one note that gets counted twice—in this case, E4.)
Lastly, the major interval inverts into a minor, and vice versa. This always holds for interval inversion. Likewise, an augmented interval’s inversion is always diminished, and vice versa. A perfect interval’s inversion is always perfect.
major ↔ minor
augmented ↔ diminished
perfect ↔ perfect
Interval inversion may seem confusing and esoteric now, but it will be an incredibly important concept for the study of voice-leading and the study of harmony.
Ultimately, intervals need to be committed to memory, both aurally and visually. There are, however, a few tricks to learning this quickly. One such trick is the so-called white-key method.
The white-key method requires you to memorize all of the intervals found between the white keys on the piano (or simply all of the intervals in the key of C major). Once you’ve learned these, any interval can be calculated as an alteration of a white-key interval. For example, we can figure out the interval D4-F#4 if we know that the interval D4-F4 is a minor third, and this interval has been made one semitone larger: a major third.
Conveniently, there is a lot of repetition of interval size and quality among white-key intervals. Memorize the most frequent type, and the exceptions.
All of the seconds are major except for two: E-F, and B-C, which are minor.
All of the thirds are minor except for three: C-E, F-A, and G-B, which are major.
All of the fourths are perfect except for one: F-B, which is augmented.
Believe it or not, you now know all of the white-key intervals, as long as you understand the concept of interval inversion. For example, if you know that all seconds are major except for E-F and B-C (which are minor), then you know that all sevenths are minor except for F-E and C-B (which are major).
Once you’ve mastered the white-key intervals, you can figure out any other interval by adjusting the size accordingly.
The last distinction between interval types to note is melodic v. harmonic intervals. This distinction is simple. If the two pitches of a dyad sound at the same time (a two-note chord), the interval between them is a harmonic interval. If the two pitches in question are sounded back-to-back (as in a melody), the interval between them is a melodic interval. This distinction is important in voice-leading, where different intervals are preferred or forbidden in harmonic contexts than in melodic contexts. The difference is also important for listening, as hearing melodic and harmonic intervals of the same quality requires different techniques.
Intervals are categorized as consonant or dissonant based on their sound (how stable, sweet, or harsh they sound), how easy they are to sing, and how they best function in a passage (beginning, middle, end; between certain other intervals; etc.). Different standards apply to melody and harmony. The following categories will be essential for your work in strict voice-leading, and they will be a helpful guide for free composition and arranging work, as well.
Melodic consonance and dissonance
The following melodic intervals are consonant, and can be used in strict voice-leading both for successive pitches and as boundaries of stepwise progressions in a single direction:
All other melodic intervals are dissonant, and must be avoided for successive pitches and as boundaries of stepwise progressions in a single direction, including:
Harmonic consonance and dissonance
The following harmonic intervals are imperfect consonances, and can be used relatively freely in strict voice-leading (except for beginnings and endings):
The following harmonic intervals are perfect consonances, and must be used with care in limited circumstances in strict voice-leading:
All other harmonic intervals are dissonant, and must be employed in very specific ways in strict voice-leading, including: