Problem 25: Suppose a low brass instrument, such as a tuba, has a fundamental frequency of 33 Hz. Although its resonant frequencies are complicated, because it is smaller at the mouthpiece and larger at the bell end, assume for this problem that the instrument is a cylindrical tube closed at one end. Part (a) What is its first overtone, in hertz? f3 = sin() cos() tan() 8 9 HOME E A AL asin() acotan() cotan() acos() 4 5 6 atan() sinh() cotanh() 1 3 cosh() tanh) END ODegrees O Radians VO BACKSPACE DEL CLEAR Submit Hint Feedback I give up! Part (b) What is its second overtone, in hertz? Part (c) What is its third overtone, in hertz?

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Chapter1: Units, Trigonometry. And Vectors
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Problem 25: Suppose a low brass instrument, such as a tuba, has a fundamental frequency of 33 Hz. Although its resonant frequencies
are complicated, because it is smaller at the mouthpiece and larger at the bell end, assume for this problem that the instrument is a cylindrical
tube closed at one end.
Part (a) What is its first overtone, in hertz?
f3 =
sin()
cos()
tan()
7
8
9
HOME
cotan()
asin()
acos()
E
4
6
atan()
cosh()
sinh()
cotanh()
ODegrees O Radians
acotan()
1
3
tanh()
+
END
VO BACKSPACE
DEL CLEAR
Submit
Hint
Feedback
I give up!
Part (b) What is its second overtone, in hertz?
Part (c) What is its third overtone, in hertz?
Transcribed Image Text:Problem 25: Suppose a low brass instrument, such as a tuba, has a fundamental frequency of 33 Hz. Although its resonant frequencies are complicated, because it is smaller at the mouthpiece and larger at the bell end, assume for this problem that the instrument is a cylindrical tube closed at one end. Part (a) What is its first overtone, in hertz? f3 = sin() cos() tan() 7 8 9 HOME cotan() asin() acos() E 4 6 atan() cosh() sinh() cotanh() ODegrees O Radians acotan() 1 3 tanh() + END VO BACKSPACE DEL CLEAR Submit Hint Feedback I give up! Part (b) What is its second overtone, in hertz? Part (c) What is its third overtone, in hertz?
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