C
Chenjerai
guest
I'm in the key of F# bebop dominant scale, what will be the notes for quartal and quintal harmony starting from the note G#6 in FL Studio?
What are the quartal and quintal harmony notes in F# bebop dominant scale?
O
Oxtail
guest
Quartal & Quintal Harmony from G#6 in F# Bebop Dominant
First, the F# Bebop Dominant Scale
The F# Bebop Dominant scale is F# - G# - A# - B - C# - D# - E - F (E#) - F#. It's essentially the F# Mixolydian mode with a passing natural 7th (E# / F♮) added.Quartal Harmony (Stacked 4ths from G#6)
You're stacking fourths using only notes from the scale. Starting on G#6, each next note is the nearest scale-degree fourth above:| Voice | Note | FL Studio Piano Roll |
|---|---|---|
| 1 | G#6 | G#6 |
| 2 | C#7 | C#7 (P4 above G#) |
| 3 | F#7 | F#7 (P4 above C#) |
| 4 | B7 | B7 (P4 above F#) |
| 5 | E8 | E8 (P4 above B) |
The intervals here are all perfect fourths (5 semitones), since G# → C# → F# → B → E all happen to fall as perfect fourths within this scale.
Quintal Harmony (Stacked 5ths from G#6)
Now stacking fifths (inversions of the fourths) upward from G#6:| Voice | Note | FL Studio Piano Roll |
|---|---|---|
| 1 | G#6 | G#6 |
| 2 | D#7 | D#7 (P5 above G#) |
| 3 | A#7 | A#7 (P5 above D#) |
| 4 | F8 (E#8) | F8 (P5 above A#) |
| 5 | C#9 | C#9 (P5 above F/E#) |
These are all perfect fifths (7 semitones). Note that C#9 is very high — in FL Studio, you may need to verify your synth can reach that register.
Practical Tips for FL Studio
- Piano Roll entry: FL Studio labels notes with standard naming, so G#6 will appear as such. Just count semitones if you're unsure, 5 semitones up for fourths, and 7 semitones up for fifths.
- Voicing tip: If the quintal stack gets too high, try dropping some voices down an octave for a more spread-out, open voicing. This keeps the quartal/quintal color without pushing into extreme registers.
- Scale highlighting: Use FL Studio's scale helper (the stamp tool or ghost notes) set to your F# Bebop Dominant scale to visually confirm you're staying in key.
O
Oxtail
guest
Yes! Semitones are absolute physical distances on the piano roll; you count every single key, black and white, regardless of whether they're in your scale or not.
So from G#6, counting 5 semitones up for a perfect fourth: G# → A → A# → B → C → C#, you land on C#7.
And counting 7 semitones up for a perfect fifth: G# → A → A# → B → C → C# → D → D#, you land on D#7.
The scale only determines which starting notes you build from. The interval distances themselves are always measured in raw semitones across all 12 chromatic notes.
O
Odd Argument
guest
When you are building harmonies within a specific scale like F# bebop dominant, you generally ignore the chromatic semitone count and instead count scale degrees.
In music theory, this is the difference between chromatic intervals (fixed semitones) and diatonic intervals (steps within a scale).
In music theory, this is the difference between chromatic intervals (fixed semitones) and diatonic intervals (steps within a scale).
Diatonic vs. chromatic counting
If you are told to build a quartal or quintal chord "in the key," you do not count 5 or 7 semitones. Instead, you "skip" a specific number of notes that belong to your scale:- For quartal (Fourths): Start on your note and move up to the 4th note in the scale (including the starting note).
- For quintal (Fifths): Start on your note and move up to the 5th note in the scale.
Why semitones vary
Because scales have uneven spacing (some steps are whole steps, others are half steps), the actual number of semitones will change depending on which note you start on.- A perfect 4th is 5 semitones.
- An augmented 4th (tritone) is 6 semitones.
Comparison of the two methods
| Method | Rule | Result |
|---|---|---|
| Diatonic (In-key) | Count only the 8 notes of F# bebop dominant. | Sounds "correct" and stays in harmony with the track. |
| Chromatic (Strict) | Count exactly 5 or 7 semitones (freely using all 12 keys). | May hit "wrong" notes that clash with your F# dominant bassline. |
How to do this quickly in FL Studio
In the FL Studio Piano Roll, you can make this easier:- Go to the View menu -> Scale highlighting.
- Set the root to F# and the scale to Bebop Dominant.
- The "in-scale" notes will be light gray, and "out-of-scale" notes will be dark.
- When stacking your chords, only click on the light gray lanes. Just count four light lanes up for quartal, or five light lanes up for quintal.
T
Tidy Samples
guest
From F#6:
Perfect fourth up: F#-G-A-B is four letter names, and 5 semitones, which gives you B6.
Perfect fifth up: F#-G-A-B-C is five letter names, and 7 semitones, which gives you C#7.
Both B and C# are in your F# bebop dominant scale, so you're staying right in key.
Mpumelelo von Mumhanzi
Moderator
Not quite, there's an important distinction. When counting diatonically for intervals, you're not counting notes in your specific scale. You're counting letter names (A, B, C, D, E, F, G) regardless of any sharps or flats.
So for a fifth from F#, you'd count: F(1) - G(2) - A(3) - B(4) - C(5). Five-letter names = a fifth. The sharps and flats don't affect the interval number — F# to C# is still a fifth, just like F to C is.
Then the chromatic count (7 semitones for a perfect fifth) confirms the quality. F# to C# = 7 semitones = perfect fifth. If it were F# to C natural, that would still be a fifth by letter names, but only 6 semitones, making it a diminished fifth instead.
So to summarize:
Diatonic counting = letter names A through G, which determines the interval number (fourth, fifth, etc.). This is universal — it has nothing to do with what scale you're in.
Chromatic counting = semitones, which determines the quality (perfect, major, minor, augmented, diminished).
Your scale then tells you which of those intervals are available between its notes, but the counting system itself is independent of the scale.
O
Odd Argument
guest
You have got it exactly right. That is the fundamental difference between the two approaches.
Diatonic vs. chromatic counting explained
Here is a quick summary of how you just described it, which is spot on:- Diatonic counting: You strictly use the notes within your chosen scale. If you need to go up a "fifth," you simply count up five notes within that specific scale ladder, completely ignoring any notes that do not belong.
- Chromatic counting: You count every single semitone (every piano key, black or white) in exact mathematical distances. For a perfect fifth, you count exactly 7 semitones up, even if it lands on a note that clashes with your scale.
Mpumelelo von Mumhanzi
Moderator
A tritone is a very specific sound that spans exactly 6 semitones. Because it splits the 12-note octave perfectly in half, chromatic and diatonic counting handle it very differently.
To get a tritone diatonically, you have to start on specific notes within your scale where the natural distance to the 4th or 5th note happens to be exactly 6 semitones.
How to count a tritone chromatically and diatonically in FL Studio
Chromatic counting for a tritone. This is straightforward because chromatic counting only cares about exact mathematical distance. To find a tritone chromatically, you start on your root note and count exactly 6 semitones (half steps) up, regardless of whether the landing note is in your scale.- Example: If you start on F#6 and count 6 semitones up, you land on C7.
- The result: You have a perfect tritone, but C natural is out of key for your F# bebop dominant scale.
To get a tritone diatonically, you have to start on specific notes within your scale where the natural distance to the 4th or 5th note happens to be exactly 6 semitones.
- Example in F# bebop dominant: Your scale is F#, G#, A#, B, C#, D#, E, F.
- If you start on A# and count a diatonic 5th up ($A# \to B \to C# \to D# \to E$), the 5th note is E.
- The result: The actual distance between A# and E is exactly 6 semitones. You just found a naturally occurring diatonic tritone that fits perfectly in your key.
Summary of the two methods for tritones
| Counting method | How it works for a tritone | Will it stay in the F# bebop dominant scale? |
|---|---|---|
| Chromatic | Count exactly 6 semitones up from any starting note. | Only if you happen to start on notes like A# or B. Otherwise, it will force you out of key (like F# to C). |
| Diatonic | Count up 4 or 5 scale degrees and see if the natural distance happens to be 6 semitones. | Yes, always. But a tritone will only naturally appear when starting on specific notes (like A# or B). |
R
Reasonably Badass
guest
A tritone is exactly 6 semitones, right in the middle of the octave. The interesting thing is that it can be spelled two different ways:
As an augmented fourth, diatonically, you count four letter names (just like a perfect fourth), but chromatically it's 6 semitones instead of 5. From F#6: F-G-A-B = four letter names, and F# to B# (or enharmonically C) = 6 semitones. So B#6 would be your augmented fourth.
As a diminished fifth, diatonically, you count five letter names (just like a perfect fifth), but chromatically it's 6 semitones instead of 7. From F#6: F-G-A-B-C = five letter names, and F# to C natural = 6 semitones. So C6 would be your diminished fifth.
Both land on the same pitch sonically; B# and C natural are enharmonic equivalents. The difference is purely in how you spell and think about it.
In your F# bebop dominant scale, you have E# (which functions as the major 7th). You don't have B# or C natural as scale tones, so a tritone from F# actually takes you outside the scale. That makes sense, because the tritone is the most dissonant interval; it naturally creates tension that wants to resolve back into the key.
Mpumelelo von Mumhanzi
Moderator
Yes, exactly. When counting semitones chromatically from F#6:
F#6 = 0 (your starting point), G6 = 1, G#6 = 2, A6 = 3, A#6 = 4, B6 = 5, C7 = 6, C#7 = 7, and so on.
So the starting note is always zero, and you count each half step from there.
T
Thunder Bear
guest
Is G6 the first semitone when counting chromatically?
Yes, if your starting note is F#6, then G6 is exactly one semitone up.When counting chromatically, you are counting the physical steps between the keys, not the total number of keys. You must treat your starting note as step zero.
Here is how the chromatic count looks if you start on F#6:
- Start (0 semitones): F#6
- 1 semitone up: G6
- 2 semitones up: G#6
- 3 semitones up: A6
- 4 semitones up: A#6
- 5 semitones up (perfect fourth): B6
K
Kontrol Sea
guest
Secundal Harmony from G#6 in the F# Bebop Dominant Scale
First, the F# bebop dominant scale contains these eight notes:F# – G# – A# – B – C# – D# – E – E# (F)
Secundal harmony stacks adjacent scale tones (seconds) rather than thirds. Starting from G#6 and moving upward through the scale, your cluster would be:
G#6 → A#6 → B6 → C#7 → D#7 → E7 → E#7 (F7) → F#7
In FL Studio's piano roll, note that E# will display as F, so you'd input:
| Voice | Note (Theory) | FL Studio Label |
|---|---|---|
| 1 | G#6 | G#6 |
| 2 | A#6 | A#6 |
| 3 | B6 | B6 |
| 4 | C#7 | C#7 |
| 5 | D#7 | D#7 |
| 6 | E7 | E7 |
| 7 | E#7 | F7 |
| 8 | F#7 | F#7 |
The intervals between consecutive notes alternate between major seconds (whole steps) and minor seconds (half steps), with the two half steps occurring between A#–B and E–F (E#)–F#. You don't have to use all eight voices; four- or five-note clusters are common in practice and tend to sound less dense while still capturing the characteristic crunch of secundal voicing.
J
Jeanne Jenner
guest
F# bebop dominant secundal harmony starting on G#6
The F# bebop dominant scale is an eight-note scale created by adding a major seventh passing tone to the standard mixolydian mode.The notes in the F# bebop dominant scale are:
- F# (Root)
- G# (Major 2nd)
- A# (Major 3rd)
- B (Perfect 4th)
- C# (Perfect 5th)
- D# (Major 6th)
- E (Minor 7th)
- E# / F (Major 7th / Passing tone)
Secundal harmony clusters in FL Studio
Secundal harmony is built by stacking consecutive, adjacent notes directly from the parent scale. Starting on G#6 in the FL Studio piano roll, the sequence ascends into the seventh octave (C7 and above) as you continue stacking.Depending on the density of the cluster you want to build, the notes are mapped as follows:
- 2-note dyad: G#6, A#6
- 3-note cluster: G#6, A#6, B6
- 4-note cluster: G#6, A#6, B6, C#7
- 5-note cluster: G#6, A#6, B6, C#7, D#7
- 6-note cluster: G#6, A#6, B6, C#7, D#7, E7
- 7-note cluster: G#6, A#6, B6, C#7, D#7, E7, E#7 (F7)
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