page note 205 * Sir Malcolm Sargent once confessed to the writer that he found great difficulty in distinguishing the octave of a whistle.

page note 206 * See p. 213 the group of musical intervals, and the homomorphic mapping onto intervals less than the octave.

page note 207 * Here we cross, as Sir Walford Da vies so aptly put it, the “Musical Date-Line”

† Or equally well, those between F^# and B^b inclusive, i.e., the black notes of the keyboard.

page note 208 * If the four strings of a violin, viola or cello are tuned to r interval between the highest and lowest string will be (3/2)³ whereas the interval of the major sixth should have a freque, 10/3 = 3.333. This discrepancy is of little moment in the case since the A string which is tuned first is not an outside string. the cello and viola, however, A is the top string, and tuning will render the C string (the bottom string) slightly flat. Ho seen from the ratio 3.375/3.333 = 1.0126; since a semitone represents a of about 6%, we see that the C string would be about one fifth of a semi flat. Sometimes, therefore a cello may prefer to tune its bottom string to C of the keyboard, or possibly of the bassoon. The difficulty is reduced by equal tempered system, whereby the same interval becomes 2 = 2^9/1 2^7/4 = 3.362.

page note 209 * See p. 213, the homomorphism of the intervals onto the intervals less than an octave.