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User:Fastaro/Generalized Pythagorean tuning: Difference between revisions

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     print(f'For x={x}, n={n}, the ratio q^n+1/p^x is: {ratio2}')
     print(f'For x={x}, n={n}, the ratio q^n+1/p^x is: {ratio2}')
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For x=0, n=0, the ratio p^x/q^n is: 1.0000000000000000
 
For x=0, n=0, the ratio q^(n+1)/p^x is: 2.0000000000000000
# For x=0, n=0, the ratio p^x/q^n is: 1.0000000000000000 For x=0, n=0, the ratio q^(n+1)/p^x is: 2.0000000000000000 For x=1, n=1, the ratio p^x/q^n is: 1.5000000000000000 For x=1, n=1, the ratio q^(n+1)/p^x is: 1.3333333333333333 For x=2, n=3, the ratio p^x/q^n is: 1.1250000000000000 For x=2, n=3, the ratio q^(n+1)/p^x is: 1.7777777777777777 For x=3, n=4, the ratio p^x/q^n is: 1.6875000000000000 For x=3, n=4, the ratio q^(n+1)/p^x is: 1.1851851851851851 For x=4, n=6, the ratio p^x/q^n is: 1.2656250000000000 For x=4, n=6, the ratio q^(n+1)/p^x is: 1.5802469135802468 For x=5, n=7, the ratio p^x/q^n is: 1.8984375000000000 For x=5, n=7, the ratio q^(n+1)/p^x is: 1.0534979423868314 For x=6, n=9, the ratio p^x/q^n is: 1.4238281250000000 For x=6, n=9, the ratio q^(n+1)/p^x is: 1.4046639231824416 For x=7, n=11, the ratio p^x/q^n is: 1.0678710937500000 For x=7, n=11, the ratio q^(n+1)/p^x is: 1.8728852309099222 For x=8, n=12, the ratio p^x/q^n is: 1.6018066406250000 For x=8, n=12, the ratio q^(n+1)/p^x is: 1.2485901539399482 For x=9, n=14, the ratio p^x/q^n is: 1.2013549804687500 For x=9, n=14, the ratio q^(n+1)/p^x is: 1.6647868719199308 For x=10, n=15, the ratio p^x/q^n is: 1.8020324707031250 For x=10, n=15, the ratio q^(n+1)/p^x is: 1.1098579146132872 For x=11, n=17, the ratio p^x/q^n is: 1.3515243530273438 For x=11, n=17, the ratio q^(n+1)/p^x is: 1.4798105528177163
For x=1, n=1, the ratio p^x/q^n is: 1.5000000000000000
For x=1, n=1, the ratio q^(n+1)/p^x is: 1.3333333333333333
For x=2, n=3, the ratio p^x/q^n is: 1.1250000000000000
For x=2, n=3, the ratio q^(n+1)/p^x is: 1.7777777777777777
For x=3, n=4, the ratio p^x/q^n is: 1.6875000000000000
For x=3, n=4, the ratio q^(n+1)/p^x is: 1.1851851851851851
For x=4, n=6, the ratio p^x/q^n is: 1.2656250000000000
For x=4, n=6, the ratio q^(n+1)/p^x is: 1.5802469135802468
For x=5, n=7, the ratio p^x/q^n is: 1.8984375000000000
For x=5, n=7, the ratio q^(n+1)/p^x is: 1.0534979423868314
For x=6, n=9, the ratio p^x/q^n is: 1.4238281250000000
For x=6, n=9, the ratio q^(n+1)/p^x is: 1.4046639231824416
For x=7, n=11, the ratio p^x/q^n is: 1.0678710937500000
For x=7, n=11, the ratio q^(n+1)/p^x is: 1.8728852309099222
For x=8, n=12, the ratio p^x/q^n is: 1.6018066406250000
For x=8, n=12, the ratio q^(n+1)/p^x is: 1.2485901539399482
For x=9, n=14, the ratio p^x/q^n is: 1.2013549804687500
For x=9, n=14, the ratio q^(n+1)/p^x is: 1.6647868719199308
For x=10, n=15, the ratio p^x/q^n is: 1.8020324707031250
For x=10, n=15, the ratio q^(n+1)/p^x is: 1.1098579146132872
For x=11, n=17, the ratio p^x/q^n is: 1.3515243530273438
For x=11, n=17, the ratio q^(n+1)/p^x is: 1.4798105528177163


== Implications and Applications ==
== Implications and Applications ==
The generalized Pythagorean tuning provides a more versatile framework for musical tuning, allowing composers and musicians to explore scales and harmonies beyond the traditional limits. This approach can lead to new musical expressions and better alignment with various musical traditions and instruments.
The generalized Pythagorean tuning provides a more versatile framework for musical tuning, allowing composers and musicians to explore scales and harmonies beyond the traditional limits. This approach can lead to new musical expressions and better alignment with various musical traditions and instruments.
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