Please help with question 2 2. The same string is attached to a hanging mass of 400 g. The linear density and the length of thestring have not changed.a. Find the linear density for the string.U eeveWb. Complete the chart for the first four modes of víbration.MODEDIAGRAMWAVELENGTHFREQUENCYWAVE SPEED1st50.0 cm2nd3rd3. Eric Clapton plucks a C on a guitar string, which causes a fundamental frequency of 261 Hz.The wave travels down the string at 400. m/s. NameDatePeriodWaves Unit II, Worksheet 61. A string is fixed between the wave driver and pulley located 50.0 cm apart. A 200. g mass isatteched to the end of the string providing the tension. When a wave generator vibrates at 150.Hz the string resonates in the third mode.50.0 cmVAWMARDAKI0.00Mass = 200.ga. Sketch the first 5 modes of vibration for this setupb. Find the wavelength for each of these modesE. Determine the speed of the wave for each of these modesd. Determine the resonant frequency for each of these modesDEDIAGRAMWAVELENGTHFREQUENCYWAVE SP

Given: Mass of the string = 0.392 X 10-3 kg Mass of hanging = 400 gm = 400 X 10-3 kg Length = 50 cm…

Answered: 2. The same string is attached to a…

2. The same string is attached to a hanging mass of 400 g. The linear density and the length of the string have not changed. a. Find the linear density for the string.

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter16: Oscillatory Motion And Waves

Section: Chapter Questions

Problem 61PE: A wave traveling on a Slinky® mat is stretched to 4 m takes 2.4 s to travel the length at me Slinky...

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Question

Please help with question 2

2. The same string is attached to a hanging mass of 400 g. The linear density and the length of the
string have not changed.
a. Find the linear density for the string.
U eeveW
b. Complete the chart for the first four modes of víbration.
MODE
DIAGRAM
WAVELENGTH
FREQUENCY
WAVE SPEED
1st
50.0 cm
2nd
3rd
3. Eric Clapton plucks a C on a guitar string, which causes a fundamental frequency of 261 Hz.
The wave travels down the string at 400. m/s.

Name
Date
Period
Waves Unit II, Worksheet 6
1. A string is fixed between the wave driver and pulley located 50.0 cm apart. A 200. g mass is
atteched to the end of the string providing the tension. When a wave generator vibrates at 150.
Hz the string resonates in the third mode.
50.0 cm
VAW
MARDAKI
0.00
Mass = 200.g
a. Sketch the first 5 modes of vibration for this setup
b. Find the wavelength for each of these modes
E. Determine the speed of the wave for each of these modes
d. Determine the resonant frequency for each of these modes
DE
DIAGRAM
WAVELENGTH
FREQUENCY
WAVE SP

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