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Q: What is the Ratio for the perfect octave?
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Pythagoras discovered the ratio for creating the interval of a perfect octave was?

He discovered the ratio of a perfect octave is 2:1.


Using two pieces of string stressed to the same tension Pythagoras discovered the ratio interval of a perfect octave was?

He discovered the ratio interval of a perfect octave is 2:1.


How many perfect intervals are there?

Within an octave there are four perfect intervals: perfect unison (P1), perfect fourth (P4), perfect fifth (P5), and perfect octave (P8).


Pythagoras discovered that to create the interval of a octave by stretching out two strings you need to play the second string using a ratio of 21.?

Perfect


Pythagoras discovered that to create the interval of a octave by stretching out two strings you need to play the second string using a ratio of 21?

Perfect


Pythagoras discovered by stretching out two strings that to create the interval of a you need to play the second string using a ratio of 2 to 1?

Perfect octave.


Pythagoras discovered that to create the interval of a octave by stretching out two strings you need to play the second string using a ratio of 2-1?

perfect fourth


What is the ratios of octave?

The ratio is 2:1. The frequency doubles for each octave that you go up.


Using two pieces of string stretched to the same tension Pythagoras discovered the ratio for creating the interval of a perfect octave was?

2:1


What does an octave look like?

an octave is a sound ratio An octave is a span of eight diatonic notes in music. In other words, it is the same note played seven full notes higher or lower.


What is an perfect eighth higher than E?

It is the next "E" above the one you start with. A "perfect eight" is an octave.


Is algebra used in music if so how and where?

Yes. The different notes represent different frequencies of vibration. One octave is a vibration ratio of 1 : 2. Since each octave has 12 half-notes, and the vibration ratio is the same for each, the vibration ratio from one half-note to the next is 1 : 12th. root of 2, or 1 : 121/12.Yes. The different notes represent different frequencies of vibration. One octave is a vibration ratio of 1 : 2. Since each octave has 12 half-notes, and the vibration ratio is the same for each, the vibration ratio from one half-note to the next is 1 : 12th. root of 2, or 1 : 121/12.Yes. The different notes represent different frequencies of vibration. One octave is a vibration ratio of 1 : 2. Since each octave has 12 half-notes, and the vibration ratio is the same for each, the vibration ratio from one half-note to the next is 1 : 12th. root of 2, or 1 : 121/12.Yes. The different notes represent different frequencies of vibration. One octave is a vibration ratio of 1 : 2. Since each octave has 12 half-notes, and the vibration ratio is the same for each, the vibration ratio from one half-note to the next is 1 : 12th. root of 2, or 1 : 121/12.