3. For a lab situation, standing waves on a string are often produced as shown: Ocillator Pulley Weight Image from https://cluster31-files.instructure.com The weight of the hanging mass produces the tension in the string. In this type a setup, a 2.00 m string whose mass is 5.00 g is vibrating under a hanging mass of 500 g (0.500 kg). What is the speed of the waves in the string? 44.27=44.3 5. A 2.00 m long string has a mass of 5.35 g and a 500 g 0.500 kg) mass is hung from a pulley at one end. If 1.50 m of the string is vibrating, find the wavelengths and frequencies of the first three resonance possibilities. (See question 3 for the set-up.)

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3. For a lab situation, standing waves on a string are often produced as shown:
Ocillator
Pulley
Weight
Image from https://cluster31-files.instructure.com
The weight of the hanging mass produces the tension in the string. In this type a setup, a 2.00 m string
whose mass is 5.00 g is vibrating under a hanging mass of 500 g (0.500 kg). What is the speed of the
waves in the string? 44.27=44.3
Transcribed Image Text:3. For a lab situation, standing waves on a string are often produced as shown: Ocillator Pulley Weight Image from https://cluster31-files.instructure.com The weight of the hanging mass produces the tension in the string. In this type a setup, a 2.00 m string whose mass is 5.00 g is vibrating under a hanging mass of 500 g (0.500 kg). What is the speed of the waves in the string? 44.27=44.3
5. A 2.00 m long string has a mass of 5.35 g and a 500 g 0.500 kg) mass is hung from a pulley at one end.
If 1.50 m of the string is vibrating, find the wavelengths and frequencies of the first three resonance
possibilities. (See question 3 for the set-up.)
Transcribed Image Text:5. A 2.00 m long string has a mass of 5.35 g and a 500 g 0.500 kg) mass is hung from a pulley at one end. If 1.50 m of the string is vibrating, find the wavelengths and frequencies of the first three resonance possibilities. (See question 3 for the set-up.)
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