A fly falls into the filament of a spider's web that is stretched with tension 8 × 10-4 N. The web silk has mass per unit length 12 µg/m. A tarantula spider is walking on the web and is generating a sinusoidal transverse wave of wavelength = 3.9 m. Assume that the magnitude of the acceleration due to gravity is 9.8 m/s². What is the speed of any wave on the filament described in the problem? 258.1988 m/s Find the minimum amplitude for which the fly can become weightless. 0.000056635 mm.
A fly falls into the filament of a spider's web that is stretched with tension 8 × 10-4 N. The web silk has mass per unit length 12 µg/m. A tarantula spider is walking on the web and is generating a sinusoidal transverse wave of wavelength = 3.9 m. Assume that the magnitude of the acceleration due to gravity is 9.8 m/s². What is the speed of any wave on the filament described in the problem? 258.1988 m/s Find the minimum amplitude for which the fly can become weightless. 0.000056635 mm.
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Transcribed Image Text:A fly falls into the filament of a spider's web that is stretched with tension 8 × 10-4 N. The web silk has mass per unit
length 12 µg/m. A tarantula spider is walking on the web and is generating a sinusoidal transverse wave of
wavelength = 3.9 m. Assume that the magnitude of the acceleration due to gravity is 9.8 m/s².
What is the speed of any wave on the filament described in the problem?
258.1988 m/s
Find the minimum amplitude for which the fly can become weightless.
0.000056635 mm.
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