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Draw a conclusion: Is a constant frequency offset a good way to transpose a melody?

Part 2

In music theory, an interval is a standard distance between two pitches. For example, if you play middle C, and then the G above that, you have played a perfect fifth . If you start with an F#, then a perfect fifth above that is a C#. The first note you play is called the fundamental .

Refer back to the piano keyboard diagram at the top of this page. Each step to an adjacent key is called a half step (also known as a semitone ).

If you play middle C (C4 on the diagram), how many half steps up do you need to go in order to play a perfect fifth interval? Enter answer on your worksheet:

If you begin on A4, which note is a perfect fifth above? Enter answer on your worksheet:

More intervals are listed below; the musical mnemonic may be helpful to hear the interval in your mind:

  • Minor 2nd - one half step above fundamental (shark theme from "Jaws" movie)
  • Major 2nd - two half steps above fundamental ("Do-Re-Mi," first two notes)
  • Major 3rd - four half steps ("Kumbaya", first two notes of phrase)
  • Perfect 4th - five half steps ("Here Comes the Bride")
  • Perfect 5th - seven half steps ("Twinkle, twinkle, little star", first two notes)
  • Major 6th - nine half steps ("My Bonnie Lies Over the Ocean," first two notes)
  • Major 7th - eleven half steps ("There's a Place for Us" from West Side Story, first two notes)
  • Octave - twelve half steps ("Somewhere Over the Rainbow," first two notes)

Listen to each of these intervals by entering the frequencies from the keyboard diagram. Remember to set your offset to zero. Also, you can silence a note by entering zero frequency. For example, if you want to hear a perfect 6th interval beginning at B3, you should use the frequencies 246.9 Hz and 415.3 Hz (G#4).

Part 3

Use C4 as the fundamental. Enter its frequency on your worksheet:

What is the frequency of a major 3rd above the fundamental? Enter its frequency on your worksheet:

What is the frequency ratio of the interval? Express your result in the form "a : 1", where "a" corresponds to the higher of the two frequencies. Enter the ratio on your worksheet:

Repeat the previous three questions using C5 as the fundamental (remember, C5 is one octave above C4). Enter the three values on your worksheet:

Try this again using A#2 as the fundamental; enter the three values on your worksheet:

Try this again using several different fundamental pitches for another type of interval.

Now, draw a conclusion: Based on what you have experienced about musical intervals so far, can you develop at least part of an explanation for why the frequencies have been selected as they have? Enter your comments on the worksheet:

Part 4

A variety of scales or tuning systems have been devised for musical instruments, some dating back several millennia. Scales include Pythagorean tuning , just-tempered , mean-tempered , well-tempered , (have you heard of Bach's "Well-Tempered Clavichord"?), and equal-tempered . For example, a just-tempered scale uses the following ratios of whole numbers for the intervals:

  • Major 2nd, 9:8 = 1.125:1
  • Major 3rd, 5:4 = _____ : 1
  • Perfect 4th, 4:3 = _____ : 1
  • Perfect 5th, 3:2 = _____ : 1
  • Major 6th, 5:3 = _____ : 1
  • Major 7th, 15:8 = _____ : 1
  • Octave, 2:1 = _____ : 1

Complete the table above to show each interval as a ratio of the form "a : 1"; enter these ratios on your worksheet:

Modify your VI so that you can enter a single fundamental frequency (in Hz) and an array of interval ratios to play. Be sure to keep the "Actual Frequencies" indicator so that you always know to what frequencies you are listening!

Listen to the scale formed by the following sequence of ratios, and use A4 (440 Hz) as the fundamental: 1, 9/8, 5/4, 4/3, 3/2, 5/3, 15/8, 2. Comment on how well this scale sounds to you (enter your comments on your worksheet):

Transpose the same scale to G4 as the fundamental, and then F4 as the fundamental. Comment on well this scale transposes to different keys (the differences may be rather subtle); enter your comments on the worksheet:

Part 5

The frequencies on the keyboard diagram above show the piano tuned using the equal-tempered scale. An equal-tempered scale sacrifices the pure whole number ratios scheme for intervals, but offers the advantage that a melody transposed to any other key will sound the same. Thus, an equal-tempered scale is a "global compromise" -- a given melody will be the same level of out of tune no matter which key is used for the fundamental. The other scales mentioned above will cause a given melody to sound quite nice in some keys, and quite out of tune in other keys.

Derive a mathematical function to calculate the frequencies used by the equal-tempered scale, i.e., given a fundamental frequency and a semitone offset, calculate the frequency. For example, when your formula is presented with the frequency 440 Hz and an offset of 2 (i.e., two semitones above concert A), it should return 493.9 Hz. Be sure to show your complete derivation process on your worksheet, and not simply the end result.

    Hints:

  • Your function should include a fundamental frequency "f" in Hz.
  • Your function should include a way to calculate the interval selected by the number of semitones (or half steps) above or below the fundamental frequency.
  • Your function should double the frequency when you enter 12 semitones above the fundamental (what should it do when you enter 12 semitones below the fundamental?).

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Source:  OpenStax, Musical signal processing with labview -- introduction to audio and musical signals. OpenStax CNX. Nov 07, 2007 Download for free at http://cnx.org/content/col10481/1.1
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