3.) A paper has size 216 mm x 279 mm (8.5 in x 11.0 in). Ten sheets of paper weigh 4.54 g (ounce). We cut a small strip of width 12.7 mm ( in). The tension in the paper strip is not known. The left end of the strip is fixed and the right end of the strip is attached to a vibrator with frequency f = 60 Hz.

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Chapter1: Units, Trigonometry. And Vectors
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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c) The typical diameter of a water droplet is D = 100 um. How many water droplets are "soaked
up" by the paper strip when the next higher/lower harmonic is produced? Use p= 1,000 kg/m for
the density of water.
Transcribed Image Text:c) The typical diameter of a water droplet is D = 100 um. How many water droplets are "soaked up" by the paper strip when the next higher/lower harmonic is produced? Use p= 1,000 kg/m for the density of water.
3.) A paper has size 216 mm x 279 mm (8.5 in x 11.0 in).
Ten sheets of paper weigh 4.54 g ( ounce). We cut a
small strip of width 12.7 mm ( in). The tension in the
paper strip is not known. The left end of the strip
is fixed and the right end of the strip is attached to a
vibrator with frequency f = 60 Hz.
vibrator
8 mm
279 mm
a) The vibrator produces the third harmonic in the paper strip. Find the the tension!
b) We keep the tension and the vibrator frequency fixed and add mass to the paper by immersing
the strip in the mist from a spray bottle. Can we produce the higher (i.e., fourth) or lower (i.e.,
second) harmonic? Explain!
Transcribed Image Text:3.) A paper has size 216 mm x 279 mm (8.5 in x 11.0 in). Ten sheets of paper weigh 4.54 g ( ounce). We cut a small strip of width 12.7 mm ( in). The tension in the paper strip is not known. The left end of the strip is fixed and the right end of the strip is attached to a vibrator with frequency f = 60 Hz. vibrator 8 mm 279 mm a) The vibrator produces the third harmonic in the paper strip. Find the the tension! b) We keep the tension and the vibrator frequency fixed and add mass to the paper by immersing the strip in the mist from a spray bottle. Can we produce the higher (i.e., fourth) or lower (i.e., second) harmonic? Explain!
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