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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?
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∙ 14y ago
perfect fourth
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∙ 14y ago
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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 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.
The sixth century philopher Pythagoras taught that?
~ All relations can be reduced to number relations.~ Vibrating strings produce harmonious tones when the ratios of the lengths of the strings are whole numbers, and that these ratios can be extended to other instruments.~ At its deepest level, reality is mathematical in nature.~ Philosophy can be used for spiritual purification.~ The soul can rise to union with the divine.~ Certain symbols have a mystical significance.~ There is dependence of the dynamics of world structure on the interaction of contraries, or pairs of opposites.~ The soul is a self-moving number experiencing a form of metempsychosis, or successive reincarnation in different species until its eventual purification.~ All existing objects were fundamentally composed of form and not of material substance.~ The brain was the locus of the soul; he prescribed certain secret cult-like practices.Pythagorean Theorem(see link below)Although the theorem, now known as Pythagoras's theorem, was known to the Babylonians 1000 years earlier, he might have been the first to prove it.
What are the factor strings for 12?
The factor strings for 12 is 6*2 , 2*2*3, 4*3 if you are doing a chart than you put the length is how long the problem.
How many different bit strings are there of length 7?
there are 128 (2 to the power of 7) bit strings of length 7
Pythagoras discovered by stretching out two strings that to create the interval of a?
perfect fourth !
What did the Pythagoras was discovered by stretching out two strings that to create the interval of a?
A perfect octave
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 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 34.?
Perfect fourth
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 by stretching out two strings that to create the interval of a you need to play the second string using a ratio of 3 4?
2:1
How did the Pythagoras contribute to ancient music theory?
It is highly probable that the Greek initiates gained their knowledge of the philosophic and therapeutic aspects of music from the Egyptians, who, in turn, considered Hermes the founder of the art. According to one legend, this god constructed the first lyre by stretching strings across the concavity of a turtle shell. Both Isis and Osiris were patrons of music and poetry. Plato, in describing the antiquity of these arts among the Egyptians, declared that songs and poetry had existed in Egypt for at least ten thousand years, and that these were of such an exalted and inspiring nature that only gods or godlike men could have composed them. In the Mysteries the lyre was regarded as the secret symbol of the human constitution, the body of the instrument representing the physical form, the strings the nerves, and the musician the spirit. Playing upon the nerves, the spirit thus created the harmonies of normal functioning, which, however, became discords if the nature of man were defiled. While the early Chinese, Hindus, Persians, Egyptians, Israelites, and Greeks employed both vocal and instrumental music in their religious ceremonials, also to complement their poetry and drama, it remained for Pythagoras to raise the art to its true dignity by demonstrating its mathematical foundation. Although it is said that he himself was not a musician, Pythagoras is now generally credited with the discovery of the diatonic scale. Having first learned the divine theory of music from the priests of the various Mysteries into which he had been accepted, Pythagoras pondered for several years upon the laws governing consonance and dissonance. How he actually solved the problem is unknown, but the following explanation has been invented. One day while meditating upon the problem of harmony, Pythagoras chanced to pass a brazier's shop where workmen were pounding out a piece of metal upon an anvil. By noting the variances in pitch between the sounds made by large hammers and those made by smaller implements, and carefully estimating the harmonies and discords resulting from combinations of these sounds, he gained his first clue to the musical intervals of the diatonic scale. He entered the shop, and after carefully examining the tools and making mental note of their weights, returned to his own house and constructed an arm of wood so that it: extended out from the wall of his room. At regular intervals along this arm he attached four cords, all of like composition, size, and weight. To the first of these he attached a twelve-pound weight, to the second a nine-pound weight, to the third an eight-pound weight, and to the fourth a six-pound weight. These different weights corresponded to the sizes of the braziers' hammers. Pythagoras thereupon discovered that the first and fourth strings when sounded together produced the harmonic interval of the octave, for doubling the weight had the same effect as halving the string. The tension of the first string being twice that of the fourth string, their ratio was said to be 2:1, or duple. By similar experimentation he ascertained that the first and third string produced the harmony of the diapente, or the interval of the fifth. The tension of the first string being half again as much as that of the third string, their ratio was said to be 3:2, or sesquialter. Likewise the second and fourth strings, having the same ratio as the first and third strings, yielded a diapente harmony. Continuing his investigation, Pythagoras discovered that the first and second strings produced the harmony of the diatessaron, or the interval of the third; and the tension of the first string being a third greater than that of the second string, their ratio was said to be 4:3, or sesquitercian. The third and fourth strings, having the same ratio as the first and second strings, produced another harmony of the diatessaron. According to Iamblichus, the second and third strings had the ratio of 8:9, or epogdoan. The key to harmonic ratios is hidden in the famous Pythagorean tetractys, or pyramid of dots. The tetractys is made up of the first four numbers--1, 2, 3, and 4--which in their proportions reveal the intervals of the octave, the diapente, and the diatessaron. While the law of harmonic intervals as set forth above is true, it has been subsequently proved that hammers striking metal in the manner
What is the name of the part that holds the strings on an acoustic guitar?
Your Bass Strings are usually fed through a hole at the base of your bass. (The metal fixing at the bottom) one end of your strings should have stoppers at the end, feed the the opposite end through first, then attatch your strings too the tune keys and wind up, Good Luck
Who is Phytagora?
Pythagoras was born on the island of Samos, Greece in 569 BC, and died about 500 BC in Metapontum, Lucania. He traveled extensively in Egypt, learning math, astronomy and music. Pythagoras was also a healer, a wrestler, and was politically active. Pythagoras was a Greek Mathematician born in 569 B.C. who studied math, music, and astronomy. Pythagoras left Samos in disgust for its ruler Polycrates. He settled in Cretona, a Greek colony in southern Italy. There he founded a movement with religious, political and philosophical goals. To facilitate his movement, he created a school where his followers lived and worked. He had many devoted followers who were called Pythagoreans. They had to adhere to certain strict rules. Obedience, silence, abstinence from food, simplicity in dress and possessions, and the habit of frequent self examination were required of the Pythagoreans. They also believed in immortality and transmigration of souls. Pythagoras created a strict order where his followers worked with Pythagoras to make new discoveries and theories. Pythagoras did much more than just discover what is now referred to as the Pythagorean Theorem. Pythagoras and his followers contributed to music, astronomy and mathematics. Pythagoras believed in secrecy and communalism, so distinguishing his work from the work of his followers is almost impossible. When joining Pythagoras's group, you had to remain silent for five years before you could contribute to the group. Some of their discoveries were right, and some were proven wrong in time. Pythagoras worked with his followers in secret, so discerning the work of Pythagoras and the work of his followers is almost impossible.Pythagoreans studied Math, Astronomy, and Music. The Pythagoreans noticed that vibrating strings produced harmonious tones when the ratios of the lengths of the strings were changed by whole numbers. They also found out that these could be transferred to other instruments. This discovery was used to help him with his math and astronomy research. Pythagoreans noticed that strings produced harmonious tones, when the ratios of the lengths of the strings were changed by whole numbers. The astronomical discoveries of the Pythagoreans had a major impact on ancient scientific thought. Pythagoreans were the first to consider the earth as one of several planets which revolved around the sun. They believed that the distance each of the heavenly bodies corresponded to a length of string with a specific tone. Pythagoras believed all of these heavenly bodies moving created a "Harmony of Spheres." Pythagoras believed all of these heavenly bodies, with their distances corresponding to a specific tone, moving created a "Harmony of Spheres." Among the many mathematical investigations of the Pythagoreans were the study of odd, even, prime and square numbers. This helped them develop a basic understanding of mathematics and geometry to build their Pythagorean theorem. The Pythagorean theorem states that the square of the hypotenuse of a right triangle is equal to the sum of the squares of the other two sides. Though it was known to Babylonians 1000 years before, Pythagoras was the first to decisively prove it. Pythagoras was the first to prove the square of the hypotenuse is the sum of the sides squared, or Pythagorean theorem. Pythagorean theorm: a2 + b2 = c2Please refer to: http://en.wikipedia.org/wiki/Pythagoras for more details.
How many strings does veena have?
It has 7 strings 4 main strings and 3 thala strings
