3. The \"chromatic\" musical scale uses twelve steps (increasing frequencies) to
ID: 2269348 • Letter: 3
Question
3. The "chromatic" musical scale uses twelve steps (increasing frequencies) to transition smoothly through a full octave (a stling of frequency). In other words, if you play any key on a standard piano, and then you play the twelve subsequent keys (every one -black and white-in order), moving to the right up the keyboard, the last note you play will be an octave higher than the note you first chose. 220000 33 082 B, 246942 261626 An example is listed here (at right), where you choose A, as your starting mote; that's the A key nearest but below (left of "middle C on the frequency is a increase by the same factor (the same multiplier): 2112 1.0994631 77.183 293.665 11 127 a. For this problem. your first task is to form an Amajor7 chord" with these four notes:E329 62 49 228 369 994 piano. Note how each successive To do this, complete the designs of four simple devices that are partly described (in no particular order) in the table below-one note per device (and you may design them assuming that the local speed of sound is 343 m/s). Each device should be a simple, straight instrument capable of creating standing waves. (You may specify theA length of each instrument to within 1 mm, so the notes will be close but approximate.) 91.995 415 305 440000 In other words, fill in the blanks to complete the table below. Show all work in the extra space, as needed Device displacement modes dislacement ntiodes Freqmency Note ength (m) (including end pointscuding end pints Type and speed 413 343m/s ..lnieressing jact 82: A-mapr.7M" chord is widely regarded s an especially moving mix sites-used anesa-gewes «f-c to evoke a pnfoand or opial mood-partly weetparny melancholy This is probably bewcouse op -major chord 's the A-CExplanation / Answer
3. for the given table
row 1
nodes = 3
antinodes = 2
hence the device is closed on both sides
now,
lambda = L for 3 nodes
hence
f = v/lambda = 343/L
type and speed : logntidinal, 343 m/s
Device : tube of air, closed on both sides
length : 1.237 m
frequency, f = 277.283751 Hz
Note : C#4
row 2
dfevice is open at both ends
L = 0.413 m
nodes = 1
hence
antinodes = 2
lambda = 2L
f = v/2L
hence
type and speed : logntidinal, 343 m/s
Device : tube of air, open on both sides
length : 0.413 m
frequency, f = 415.2542 Hz
Note : G#4
row 3
L = 0.413 m
nodes = 2
antinodes = 2
hence dfevice is open at one
lambda = 4L/3
f = 3v/4L
also, final note has to be A3, so f = 220 Hz
hence
L = 1.16931 m
hence
type and speed : logntidinal, 343 m/s
Device : tube of air, open on one sides
length : 1.169318 m
frequency, f = 220 Hz
Note : A4
row 4
speed of sound in medium, v = 150 m/s
hence its not air, so it is a string fixed at both ends
hence its transcerse wave travelling in the material
antinodes = 5
hence
nodes = 6
so, lambda = 5L/2
f = 2v/5L
but note is E4
hence
f = 329.628 Hz
hence
L = 0.1820233718 m
type and speed : transverse, 150 m/s
Device : string fixed on both sides
length : 0.1820233 m
frequency, f = 329.628 Hz
Note : E4
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