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.
There are 60 seconds in one minute.There are 60 seconds in one minute.60 secsMin = minute. There are 60 seconds in a minute.There 60 sec in one minute
One minute of latitude represents 1 nautical mile
This question to this cannot be answered. I have to have detail.
What is hertz
Each second.
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.
How about one minute brushing and one minute flossing
There are 60 seconds in one minute.There are 60 seconds in one minute.60 secsMin = minute. There are 60 seconds in a minute.There 60 sec in one minute
when there was one minute remaining in the period. not before. not after.
One minute of latitude represents 1 nautical mile
You mean the one in Oddball? It goes each minute.
The period of vibration is the time it takes to complete one full cycle of vibration. In this case, since the wave vibrates 3 times each second, the period of vibration would be 1/3 seconds per cycle.
This question to this cannot be answered. I have to have detail.
6
The copper minute hands on The Elizabeth tower (Big Ben) weighs 100 KG each. There are 4 of them, one for each face.
The answer is the letter "M".