Your answer is partially correct. Review Conceptual Example 5 before attempting this problem. As the drawing shows, the length of a guitar string is L = 0.591 m. The frets are numbered for convenience. A performer can play a musical scale on a single string because the spacing between the frets is designed according to the following rule: When the string is pushed against any fretj, the fundamental frequency of the shortened string is larger by a factor of the twelfth root of two than it is when the string is pushed against the fret j - 1. Assuming that the tension in the string is the same for any note, find the spacing (a) between fret 1 and fret O and (b) between fret 7 and fret 6. (a) Number i 0.033 (a) Number i 0.024 Units Units E E 76 5 4 3 2 1 0 <
Your answer is partially correct. Review Conceptual Example 5 before attempting this problem. As the drawing shows, the length of a guitar string is L = 0.591 m. The frets are numbered for convenience. A performer can play a musical scale on a single string because the spacing between the frets is designed according to the following rule: When the string is pushed against any fretj, the fundamental frequency of the shortened string is larger by a factor of the twelfth root of two than it is when the string is pushed against the fret j - 1. Assuming that the tension in the string is the same for any note, find the spacing (a) between fret 1 and fret O and (b) between fret 7 and fret 6. (a) Number i 0.033 (a) Number i 0.024 Units Units E E 76 5 4 3 2 1 0 <
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![Your answer is partially correct.
Review Conceptual Example 5 before attempting this problem. As the drawing shows, the length of a guitar string is L = 0.591 m. The
frets are numbered for convenience. A performer can play a musical scale on a single string because the spacing between the frets is
designed according to the following rule: When the string is pushed against any fretj, the fundamental frequency of the shortened
string is larger by a factor of the twelfth root of two than it is when the string is pushed against the fret j - 1. Assuming that the tension
in the string is the same for any note, find the spacing (a) between fret 1 and fret O and (b) between fret 7 and fret 6.
(a) Number i 0.033
(a) Number i 0.024
Units
Units
E
E
76 5 4 3 2 1 0
<
<](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc513c615-c25b-4959-b469-20fda66f0840%2F7ca533d3-06fb-4cf6-aeaf-71810c70352f%2F2nex8pu_processed.png&w=3840&q=75)
Transcribed Image Text:Your answer is partially correct.
Review Conceptual Example 5 before attempting this problem. As the drawing shows, the length of a guitar string is L = 0.591 m. The
frets are numbered for convenience. A performer can play a musical scale on a single string because the spacing between the frets is
designed according to the following rule: When the string is pushed against any fretj, the fundamental frequency of the shortened
string is larger by a factor of the twelfth root of two than it is when the string is pushed against the fret j - 1. Assuming that the tension
in the string is the same for any note, find the spacing (a) between fret 1 and fret O and (b) between fret 7 and fret 6.
(a) Number i 0.033
(a) Number i 0.024
Units
Units
E
E
76 5 4 3 2 1 0
<
<
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