What mass in grams is needed to vibrate the string (l
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What mass in grams is needed to vibrate the string (linear mass density is 0.026 g/cm) and produce a standing wave shown in the picture below? The frequency of the vibrator is 135 Hz and the length of the string is 68 cm.
pls i need it asap
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- SI Session 2 Define Period (T): Frequency (f): A buoy bobs up and back down in 2.4 seconds. The buoy makes it 0.2 meters away in 7 seconds. What is the period? What is the frequency? What is the velocity? What is the wavelength? What is the difference between longitudinal and transverse waves? Circle the correct answer. Light is a transverse / longitudinal wave. Sound is a transverse / longitudinal wave. The wave below is traveling at 3 m/s. What are both the space and time functions of the wave below?A taut string having tension 263 N has a wave speed of 51 m/s when it is plucked. What should be its new tension of we want the wave speed to be 266 m/s. Write your answer in N.The wavelength of an ocean wave is 4.1 m. It is measured to be traveling at 4.5 m/s. What is the period of the ocean wave? Calculate the frequency of the 3rd overtone of a closed of a closed pipe which is 25.1 cm long.
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- You have a string with a mass of 0.0139 kg. You stretch the string with a force of 9.67 N, giving it a length of 1.95 m. Then, you vibrate the string transversely at precisely the frequency that corresponds to its fourth normal mode; that is, at its fourth harmonic. What is the wavelength ?4of the standing wave you create in the string? What is the frequency ?4?A guitar string 75.0cm in length is strung to play the note C at a frequency of 880Hz as it 3rd harmonic. a.) what is the length of the transverse wave on the guitar string? b) what is the speed of this transverse wave along the guitar string? c.) what is the length of the longitudinal sound wave that travels through the air?A stretched string is 2.03 m long and has a mass of 20.3 g. When the string oscillates at 440 Hz, which is the frequency of the standard A pitch, transverse waves with a wavelength of 15.5 cm travel along the string. Calculate the tension T in the string. T = terms of use contact us help careers privacy polícy about us Show All Free-Fall-Phet.docx V VS T.jpeg free fall.png VS T.jpeg