Comparing Equal-Tempered and Just Tuning Systems
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(Scales) This tuning system has the advantage of having exact ratios for intervals, meaning that, if correctly tuned with the system, all of the intervals will beat at significantly more natural-feeling and aurally pleasing frequencies than if tuned with a different system. As a consequence, however, an instrument that is tuned using this scale can only play in the key it is tuned to, since it is tuned with ratios to a fundamental baseline tone, which is the key the instrument is in. That is to say that if the instrument was played in a different key, the ratios of the intervals between notes in that key would not match up with the ratios the instrument is tuned to, creating unwanted dissonance, or aurally displeasing beat frequencies. The Equal-Tempered tuning system is used as a compromise to work around the problem in the Just system of playing in different keys. This problem is alleviated by using a constant frequency multiple between notes, spacing the notes out more evenly than the spacing created by the ratios in the Just system. This allows for play in all keys to be much more equal, in that, while the overall sound for a specific key is diminished, play across different keys works just as well as in the original key, unlike the Just system. The Equal-Tempered tuning system works based on one defined frequency, with the frequencies of all other tones being determined by a geometric series, shown below.
Where
Frequency of the note half steps away from Frequency of 1 fixed note that must be defined (A4 = 440Hz is common) 
Number of half steps away from (Formula) This geometric series equation to calculate frequencies is based on the fact that there are 12 tones, and going up 12 half steps results in an octave, which is the same tone with twice the frequency. The constant accounts for this, creating consistent spacing between every tone. Two different chord structures will now be modeled using both tuning systems in order to demonstrate the differences between the systems. An A Major chord and an A Minor chord will be modeled, using A = 440Hz as the defined tone. The Major chord is structured using the root (fundamental) tone, the major third, and the fifth, meaning that the Just system frequencies will have a 3:4:5 ratio, and the Equal-Tempered frequencies will use the defined tone, the tone 4 half steps up, and the tone 7 half steps up. The Minor chord is similarly structured, except it uses the minor third rather than the major third, giving the Just system frequencies a 10:12:15 ratio, and the Equal-Tempered frequencies the same frequencies, except the middle tone being 3 half steps up rather than 4. Just Tuning A Major: 
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