Beginner's guide to musical intervals

Musical intervals

An interval in music is a measurement of the difference in pitch between two notes. Another usage of the word refers to any two notes played together, as in two note chords, but in this article we'll focus on the first meaning, the pitch difference (or relationship) between any two notes.

Knowledge of musical intervals is considered necessary for those wanting to have a deeper understanding of chords and scales. In fact, a basic knowledge of intervals in music is useful for all musicians who play 'pitched' instruments.

Why musical intervals are important is because in music it’s the pitch difference between the notes that makes tunes recogniseable as music, (that and timing). It's not so much the actual notes of any tune themselves as they can all be changed in pitch (raised or lowered equally) simply by starting the tune on a different note. The notes make the actual sounds, of course, but it’s the succession of musical intervals (pitch intervals and time intervals) that make the music.

For example, we can sing any song and start it on any note we choose. Wherever we start, it’s always the same tune – just higher or lower versions. All the notes are going to be different depending on which one we start on, but, importantly, the intervals don't change, no matter which note we choose to start on. It applies to every melody, scale and chord. Intervals really are the building blocks of music.

Look at the picture below showing two versions of the same tune. Even if you don't read music, you can probably see that the shape of the tune is the same in both cases. All the notes are different but the tune sounds exactly the same in both versions apart from one being lower in pitch than the other. The tune is the same in both versions because the various musical intervals between the notes in each version are exactly the same in both cases.

Different pitches - same intervals

Both examples are the same tune at different pitches. The series of intervals is the same in both cases.
Both examples are the same tune at different pitches. The series of intervals is the same in both cases.

Whole tones and semitones

There are two common ways of measuring the pitch difference between two notes. One way is by using small units called whole tones and semitones, also known as whole steps and half steps in the US.

A semitone is the smallest pitch difference that we use in our standard Western major-minor system of music. It's the difference between any two adjacent notes of the musical alphabet shown below. (There are intervals smaller than semitones, called microtones, but they aren't part of our standard Western music system).

More practically, It’s the difference in pitch between any piano key and its nearest neighbour (black or white) up or down, or the distance between any two adjacent frets under the same string of a guitar. For singers, it’s the distance from Ti up to Do in solfege, or the ominous Jaws movie theme.

Two semitones (half steps) make a whole tone (whole step), and there are 12 semitones before we run out of notenames (including sharps/ flats) and come back to the same note-name, twelve semitones higher.

Chromatic and Diatonic Semitones

The interval between the notes A and A# (or Bb) is a semitone. If both notes of the interval are named from the same letter (such as A and A#) it's called a chromatic semitone. If the semitone is based on notes with two different letters (such as A and Bb) it's called a diatonic semitone. That's a fairly academic point though. In our current tuning system called equal temperament, diatonic semitones sound exactly the same as chromatic semitones, just as the note, A# now sounds exactly the same as Bb. (They weren't always the same). For most purposes it's just a semitone or half step.

The musical alphabet
The musical alphabet

Numbered intervals

The other method gives the interval a number depending on how many letter names are involved in counting between the two notes.

So, for example, if we want to know the interval between the note A and the nearest C above it, we start from the lowest and count the number of letters involved. A to C involves three letters (A, B & C), so that’s called a THIRD. The interval between D and the nearest G above involves four letters (D, E, F & G) so the interval from D to G is a FOURTH. C to the next C above involves 8 letters (CDEFGAB&C). That (and any other “eight letter span”) gets the special name of octave (from Latin 'octo' = 8). The next C above that would give an interval of two octaves. If we include sharps (or flats), we can see from the musical alphabet diagram that there are 12 semitones in an octave. We can also have an interval name for C to the same C (such as two singers singing the same note). It's called a unison.

Simple and Compound Intervals


We can also go further than an octave. For example, the interval between A & B is a second, (the interval spans two letters A & B). The interval from A to the next B above that spans 9 letters (ABCDEFGA & B). So we can call that large interval a ninth. Intervals greater (wider) than an octave are called COMPOUND INTERVALS, and those smaller than an octave are called SIMPLE INTERVALS. We can call that large interval from A to the higher B, a ninth or a compound second. We don't normally count intervals any larger than a thirteenth (which is also a compound sixth). Instead we just think of them as compound 3rds, 4ths, etc. Compound intervals don't really feature in melodies, which usually never leap greater than an octave. In harmony compound intervals are so similar in effect to their simple counterparts that we can usually ignore the difference, and you can assume for the rest of the article that the information applies to compound intervals too.

List of intervals based on A
List of intervals based on A

Interval quality

Using numbers isn’t quite enough, though. Consider the interval from A up to C# (we always count from the lower note to the higher). There are three letters involved, A, B & C, so it’s a third, but because the upper note is C# instead of C, it’s a little bigger than the third that we first encountered above (A to C). It's exactly one semitone larger, in fact. In order to distinguish between these two thirds of different size, the larger one (A-C#) gets called a major 3rd interval and the smaller one (A-C) a minor 3rd Interval. Major and minor are two of the terms that describe what’s known as the quality of intervals. So, intervals have a quality as well as a number that we use when we need to be more specific.

There are five terms that are used in specifying the quality of intervals:

Major, minor, perfect, augmented and diminished.

The only interval types that can be major or minor are:

SECONDS, THIRDS, SIXTHS and SEVENTHS.

The only interval types that can be perfect are:

UNISONS, FOURTHS, FIFTHS, and OCTAVES.

All intervals can be AUGMENTED or DIMINISHED by expanding or reducing them by one chromatic semitone.

Major & Minor Intervals

We saw earlier how these two terms referred to two different sized versions of thirds. Here are some examples:

A - Bb is a minor second.
A - B is a major second.

A - C is a minor 3rd.
A - C# is a major 3rd.

A - F is a minor 6th.
A - F# is a major 6th.

A - G is a minor 7th.
A - G# is a major 7th.

Perfect Intervals

These are a special class of interval. Notes separated by perfect intervals have a very strong acoustic relationship with each other.

Here are some examples:

A - A (same note) is a perfect unison.

A - D is a perfect 4th.

A - E is a perfect 5th.

A - A (next A higher) is a perfect octave.

Note that we usually drop the word perfect when talking or writing about perfect octaves and unisons. The 'perfect' part is assumed, unless we indicate otherwise.

Augmented & Diminished Intervals

If we take any major or perfect interval and expand it by a semitone (but keep the same letters) the interval is said to be augmented. We can do that by raising the upper note or by lowering the lower note. As we saw above, the interval A to C# is a major 3rd. If we lower the bottom note, we get Ab to C#. There are still three letters covered by this interval (A B & C) but it's one semitone larger than the major 3rd - hence the name, augmented 3rd.

Similarly, we can reduce the size of an interval a semitone by lowering the upper note or raising the lower note. Again, using an interval we saw previously, A to C is a minor 3rd. If we raise the lower note, we get A# to C. There are still three letters covered (A, B & C) but the interval is now one semitone smaller than a minor 3rd, hence the name, diminished 3rd.

Here are some examples compared to other intervals:

A to D is a perfect 4th, so A to D# is an augmented 4th and A to Db is a diminished 4th.
A to G is a minor 7th, so A to Gb is a diminished 7th.
Bb to D is a major 3rd, so Bb to D# is an augmented 3rd.

Intervals of the major scale

Intervals from the key note to each note of the A major scale. All major scales have exactly the same set of intervals.
Intervals from the key note to each note of the A major scale. All major scales have exactly the same set of intervals.

Calculating intervals

It's easy to know the number of any interval simply by counting the number of letters it covers as explained above. Finding the quality, such as major or minor or whatever isn't so straightforward. There are two common ways to do this. The first is simply to memorise the number of semitones each interval contains, then you can count the number of semitones the mystery interval covers. Make sure you choose the right interval number, though. This is quite a laborious way of doing it, but for people who are familiar with major scales, there's a better way, which is to compare your mystery interval to the major scale that corresponds with the lower note. For example, if you want to know the interval from A to F, do this:

  1. Find the number of the interval by counting the letters covered by the interval. In this case, the interval covers six letters (A, B, C, D, E & F) so it's a 6th of some kind.
  2. Next, as the lower note of the interval is A, count up the A major scale until you come to the sixth note. In this case the note is F# and we know (from the figure showing the intervals of the major scale) that the 6th scale note (F#) is a major 6th above the key note (A). Our note, however, is F, which makes our interval one semitone smaller than a major 6th, so it must be a minor 6th.

If you want to know how to make any major scale, you can learn it here.

Enharmonic equivalents

Some intervals sound identical but are named differently depending on how the notes are named. For example, A to D# (augmented 4th) sounds the same as A to Eb (diminished 5th) since D# and Eb are two names for the same pitch. These intervals (like those notes) are said to be enharmonic equivalents of each other. Another name for this interval is a tritone as it equals three whole tones.

Some examples

Diminished 7th (A - Gb) is enharmonically equivalent to a major 6th (A - F#).
Augmented unison (A - A#) is enharmonically equivalent to a minor 2nd (A - Bb).
Major 3rd (A - C#) is enharmonically equivalent to a diminished 4th (A - Db).

Consonance and dissonance

If the two notes that form an interval are played one after the other, the interval is said to be melodic. If they're played at the same time, the interval is said to be harmonic.

Harmonic intervals have a special quality which is caused by the interaction of both notes. It means that when we hear a harmonic interval, we hear three things: the lower note, the upper note, and the harmonic effect caused by the two notes in combination.

When the resulting effect of any two notes played at the same time is felt to be smooth and blending, the interval is said to be consonant. When they clash, the interval is said to be dissonant.

Although these are partly subjective effects, there is general agreement about which intervals are consonant and which are dissonant as follows.

All perfect intervals are consonant. In fact, they're highly consonant to the extent that they can sound bland. A unison has no harmonic effect at all, and an octave is very hollow and uninteresting. Perfect 5ths and 4ths also have a hollow purity which was considered well suited for Gregorian chant in medieval times. The sound of of these intervals in that type of setting, especially with the acoustics of a cathedral, is atmospheric and striking. Their purity of sound is the reason that they're used as power chords in rock guitar playing too. Effects such as heavy overdrive or distortion can make normal chords sound very muddy, unstable and harsh, but the simplicity and purity of perfect 5ths and 4ths keep power chords clear, balanced and powerful.

All major and minor 3rds and 6ths are consonant. They don't have the purity of perfect consonances but have edge and are more interesting. These types are called 'imperfect consonances'.

Major and minor 2nds, and 7ths are dissonant as are all augmented and diminished intervals. They have a more or less jarring sound that introduces tension into the music.

Tension, of course, is very important in music. It's the controlled build up and release of tension that causes music to appeal to our emotions in the way that it does. A build up of tension caused by a dissonant interval can be released by following it with (resolving to) an appropriate consonant interval. Without consonance, music would be very chaotic and jarring. Without dissonance, music would be very boring.

Dissonance in Context

Some intervals need a context for us to hear their dissonant effect. For example a diminished 7th, such as A to Gb(which is classed as dissonant) is exactly the same as the major 6th, A to F#(which is classed as consonant). If we hear this interval without any context, i.e., in isolation, we'll hear it as a consonant major 6th interval. We can only hear it as a dissonant diminished 7th interval in the right context (such as part of a diminished 7th chord). Perfect 4ths are also a special case. In isolation and in certain contexts, it's a highly consonant interval. In other contexts, it's a dissonant interval.

Inverting intervals

If we reverse the order of notes in an interval, it becomes inverted. For example, A up to C is a minor 3rd. Inverting it gives us C up to A, which is a minor 6th.

An easy way to know what any simple interval becomes after it's inverted is to subtract the interval number from 9, and then change the interval quality as follows:

Major intervals become minor when inverted.
Minor intervals become major when inverted.

Augmented intervals become diminished when inverted.
Diminished intervals become augmented when inverted.

Perfect intervals remain perfect when inverted.

Examples
The inversion of a major 7th is a minor 2nd (9 - 7 = 2 and major becomes minor).
The inversion of an augmented 4th is a diminished 5th (9 - 4 = 5 and augmented becomes diminished).
The inversion of a perfect 5th is a perfect 4th (9 - 5 = 4 and perfect remains perfect).

Recognising intervals by ear

I hope this article gives you an insight into intervals - how they're formed, named and used. To gain an even deeper understanding of them, you should practise singing them, which will teach you how each melodic interval sounds. Some people learn them by associating the first two notes of a well-known song with each interval. For example, the first two notes of "Over the rainbow" make the interval of an octave. A major 6th interval is the interval between the first two notes of "My Bonnie lies over the ocean". You can use any songs you like.

Test your ability to recognise intervals of the major scale with this simple ten question quiz in the following lesson. There are also tips for learning how to practise recognising and identifying intervals by ear

Ear Training - Recognising intervals of the major scale by ear

More by this Author


Comments

No comments yet.

    Sign in or sign up and post using a HubPages Network account.

    0 of 8192 characters used
    Post Comment

    No HTML is allowed in comments, but URLs will be hyperlinked. Comments are not for promoting your articles or other sites.


    Click to Rate This Article
    working