Difference between revisions of "ExpEYES/C3/Characteristics-of-Sound-Waves/English-timed"

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|-
 
|-
 
|00:01
 
|00:01
|Hello everyone.Welcome to this tutorial on '''Characteristics of Sound Waves'''.
+
|Hello everyone. Welcome to this tutorial on '''Characteristics of Sound Waves'''.
  
 
|-
 
|-
 
|00:08
 
|00:08
| In this tutorial we will learn to demonstrate:
+
| In this tutorial, we will learn to demonstrate:
  
 
* How to generate a sound wave
 
* How to generate a sound wave
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|-
 
|-
 
|00:29
 
|00:29
|And Show
+
|And, show:
  
* Xmgrace plots
+
* '''Xmgrace plot'''s
  
* Fourier Transforms and  
+
* '''Fourier Transforms''' and  
  
* Circuit diagrams for our experiments.
+
* '''Circuit diagram'''s for our experiments.
  
 
|-
 
|-
 
|00:38
 
|00:38
| Here I am using,
+
| Here I am using:
* '''ExpEYES''' version 3.1.0
+
* '''ExpEYES''' version '''3.1.0'''
* '''Ubuntu Linux''' OS version 14.10
+
* '''Ubuntu Linux''' OS version '''14.10'''
  
 
|-
 
|-
 
|00:49
 
|00:49
| To follow this tutorial, you should be familiar with:
+
| To follow this tutorial, you should be familiar with '''ExpEYES Junior''' interface. If not, for relevant tutorials, please visit our website.  
'''ExpEYES Junior''' interface.If not, for relevant tutorials, please visit our website.  
+
  
 
|-
 
|-
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|-
 
|-
 
|01:13
 
|01:13
|It requires a medium to propagate.The medium can be air, water or any metal surface.
+
|It requires a medium to propagate. The medium can be air, water or any metal surface.
  
 
|-
 
|-
 
|01:22
 
|01:22
| In this tutorial we will carry out various experiments to show characteristics of sound waves.
+
| In this tutorial, we will carry out various experiments to show characteristics of sound waves.
  
 
|-
 
|-
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|-
 
|-
 
|01:44
 
|01:44
|'''Microphone(MIC)''' is connected to '''A1'''.Here '''Piezo buzzer(PIEZO)''' is a source of sound.
+
|'''Microphone(MIC)''' is connected to '''A1'''. Here '''Piezo buzzer(PIEZO)''' is a source of sound.
 
This is the circuit diagram.
 
This is the circuit diagram.
  
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|-
 
|-
 
|02:07
 
|02:07
| Click on '''SQR1''' check box.Frequency of '''SQR1''' is set to ''3500Hz''. A digitized sound wave is generated.
+
| Click on '''SQR1''' check box. Frequency of '''SQR1''' is set to ''3500Hz''. A digitized sound wave is generated.
  
 
|-
 
|-
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|-
 
|-
 
|02:27
 
|02:27
| Click on '''SQ1''' and drag to''' CH2'''.Input data of '''SQ1''' is assigned to '''CH2'''.A square wave is generated.
+
| Click on '''SQ1''' and drag to''' CH2'''. Input data of '''SQ1''' is assigned to '''CH2'''. A square wave is generated.
  
 
|-
 
|-
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|-
 
|-
 
|02:48
 
|02:48
| Click on '''CH2 '''and drag to '''FIT'''.Voltage and frequency of '''SQ1''' is displayed on the right-side.
+
| Click on '''CH2 '''and drag to '''FIT'''. Voltage and frequency of '''SQ1''' is displayed on the right-side.
  
 
|-
 
|-
 
|02:59
 
|02:59
| Move the '''frequency''' slider to set in '''sound waves'''
+
| Move the '''frequency''' slider to set in '''sound waves'''.
  
 
|-
 
|-
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|-  
 
|-  
 
|03:24
 
|03:24
| On the '''Plot window''' click on '''EXPERIMENTS''' button.'''Select Experiment''' list opens.Click on ''' Frequency Response''' from the list.
+
| On the '''Plot window''' click on '''EXPERIMENTS''' button. '''Select Experiment''' list opens. Click on ''' Frequency Response''' from the list.
  
 
|-
 
|-
 
|03:39
 
|03:39
| Two new windows '''Audio Frequency response Curve''' and '''Schematic''' open.'''Schematic''' window shows, circuit diagram of the experiment.
+
| Two new windows '''Audio Frequency response Curve''' and '''Schematic''' open. '''Schematic''' window shows, circuit diagram of the experiment.
  
 
|-
 
|-
 
|03:52
 
|03:52
| On the '''Audio Frequency response Curve''' window click on ''' START''' button.
+
| On the '''Audio Frequency response Curve''' window, click on ''' START''' button.
  
 
|-
 
|-
 
|03:59
 
|03:59
| '''Frequency response''' of the '''Piezo buzzer''' is set in.'''Frequency response''' has maximum '''amplitude''' at ''3700Hz''.  
+
| '''Frequency response''' of the '''Piezo buzzer''' is set in. '''Frequency response''' has maximum '''amplitude''' at ''3700Hz''.  
  
 
|-
 
|-
 
|04:11
 
|04:11
| On the same window click on '''Grace''' button.'''Grace''' window opens showing '''Frequency response Curve'''
+
| On the same window, click on '''Grace''' button. '''Grace''' window opens showing '''Frequency response Curve'''.
  
 
|-
 
|-
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|-
 
|-
 
|04:27
 
|04:27
| On the '''Plot window''' click on '''EXPERIMENTS''' button.
+
| On the '''Plot window''', click on '''EXPERIMENTS''' button.
'''Select Experiment''' list opens.Click on '''Velocity of Sound''' from the list.
+
'''Select Experiment''' list opens. Click on '''Velocity of Sound''' from the list.
 
|-
 
|-
 
|04:41
 
|04:41
|Two new windows '''EYES Junior: Velocity of Sound''' and '''Schematic''' open.'''Schematic''' window shows the circuit diagram of the experiment.
+
|Two new windows '''EYES Junior: Velocity of Sound''' and '''Schematic''' open. '''Schematic''' window shows the circuit diagram of the experiment.
  
 
|-
 
|-
 
|04:55
 
|04:55
| On '''EYES Junior: Velocity of Sound''' window click on '''Measure Phase''' button.
+
| On '''EYES Junior: Velocity of Sound''' window, click on '''Measure Phase''' button.
  
 
|-
 
|-
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|-
 
|-
 
|05:16
 
|05:16
|From the various '''Phase''' values we will use ''178deg'' and ''106deg'' to calculate velocity of sound.
+
|From the various '''Phase''' values, we will use ''178deg'' and ''106deg'' to calculate velocity of sound.
  
 
|-
 
|-
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|-
 
|-
 
|05:45
 
|05:45
| To calculate the value of '''velocity of sound''',we have the formula as shown:
+
| To calculate the value of '''velocity of sound''', we have the formula as shown.
 
Velocity of sound obtained from the experiment is 350m/sec.
 
Velocity of sound obtained from the experiment is 350m/sec.
  
 
|-
 
|-
 
|05:59
 
|05:59
|As an assignment, calculate the value of '''wavelength''' of sound.Formula: '''λ= v/f'''.
+
|As an assignment, calculate the value of '''wavelength''' of sound. Formula: '''λ= v/f'''.
  
 
|-
 
|-
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|-
 
|-
 
|06:20
 
|06:20
| To show '''Grace''' plots in the experiments:
+
| To show '''Grace''' plots in the experiments,
  
 
|-
 
|-
 
|06:23
 
|06:23
|Make sure that you have installed
+
|make sure that you have installed:
  
 
* python-imaging-tk
 
* python-imaging-tk
Line 209: Line 208:
 
|-
 
|-
 
|06:34
 
|06:34
|In this experiment we use two Piezo buzzers as source of sound.  
+
|In this experiment, we use two Piezo buzzers as source of sound.  
  
 
|-
 
|-
 
|06:41
 
|06:41
| In this experiment '''Piezo 1''' is connected to '''SQR1''' and ground'''(GND)'''.'''Piezo 2''' is connected to '''SQR2''' and ground'''(GND)'''.This is the circuit diagram.
+
| In this experiment '''Piezo 1''' is connected to '''SQR1''' and ground'''(GND)'''. '''Piezo 2''' is connected to '''SQR2''' and ground'''(GND)'''. This is the circuit diagram.
  
 
|-
 
|-
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|-
 
|-
 
|07:06
 
|07:06
|Click on '''SQR1''' and '''SQR2''' check boxes.Frequency of '''SQR1 '''and''' SQR2''' is set to “3500Hz”.  
+
|Click on '''SQR1''' and '''SQR2''' check boxes. Frequency of '''SQR1 '''and''' SQR2''' is set to “3500Hz”.  
  
 
|-
 
|-
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|-
 
|-
 
|07:29
 
|07:29
|Click on '''EXPERIMENTS''' button and select '''Interference of Sound'''.'''EYES: Interference of Sound''' window opens.
+
|Click on '''EXPERIMENTS''' button and select '''Interference of Sound'''. '''EYES: Interference of Sound''' window opens.
  
 
|-
 
|-
 
|07:39
 
|07:39
|At the bottom of the window, change '''NS''' that is '''number of samples''' value to ''1000''.
+
|At the bottom of the window, change '''NS''', that is, '''number of samples''' value to ''1000''.
  
 
|-
 
|-
 
|07:48
 
|07:48
|Click on '''SQR1''' and '''SQR2''' check boxes.Click on '''START''' button.'''Interference''' pattern is seen.  
+
|Click on '''SQR1''' and '''SQR2''' check boxes. Click on '''START''' button. '''Interference''' pattern is seen.  
  
 
|-
 
|-
 
|08:00
 
|08:00
|Now click on '''Xmgrace''' button.A new window opens with a '''Grace''' pattern.
+
|Now click on '''Xmgrace''' button. A new window opens with a '''Grace''' pattern.
  
 
|-
 
|-
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|-
 
|-
 
|08:20
 
|08:20
| At the bottom of the window, Click on '''SQR1 '''and '''SQR2''' check boxes.
+
| At the bottom of the window, click on '''SQR1 '''and '''SQR2''' check boxes.
  
 
|-
 
|-
 
|08:28
 
|08:28
|Click on '''START''' button.'''Beats''' pattern appears.
+
|Click on '''START''' button. '''Beats''' pattern appears.
  
 
|-
 
|-
 
|08:33
 
|08:33
|Now click on '''Xmgrace''' button.A new window opens with a '''Grace''' pattern.
+
|Now, click on '''Xmgrace''' button. A new window opens with a '''Grace''' pattern.
  
 
|-
 
|-
 
|08:42
 
|08:42
| Click on '''FFT'''.A new window opens with '''Fourier Transform'''.
+
| Click on '''FFT'''. A new window opens with '''Fourier Transform'''.
  
 
|-
 
|-
 
|08:49
 
|08:49
|To know more about '''Fourier Transform ''' please visit this webpage.'''https://en.wikipedia.org/wiki/Fourier_transform'''.
+
|To know more about '''Fourier Transform ''', please visit this webpage.
 +
'''https://en.wikipedia.org/wiki/Fourier_transform'''.
  
 
|-
 
|-
 
|08:55
 
|08:55
|Let us perform an experiment to show a low frequency sound wave.This is the circuit diagram.
+
|Let us perform an experiment to show a low frequency sound wave. This is the circuit diagram.
  
 
|-
 
|-
 
|09:03
 
|09:03
| Click on '''EXPERIMENTS''' button and select '''Interference of Sound'''.'''EYES: Interference of Sound''' window opens.
+
| Click on '''EXPERIMENTS''' button and select '''Interference of Sound'''. '''EYES: Interference of Sound''' window opens.
  
 
|-
 
|-
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|-
 
|-
 
|09:36
 
|09:36
|In this tutorials we have learnt to demonstrate:
+
|In this tutorial, we have learnt to demonstrate:
  
 
* How to generate a sound wave
 
* How to generate a sound wave
Line 320: Line 320:
 
|-
 
|-
 
|09:56
 
|09:56
|And have shown:
+
|And, have shown:
  
 
* Xmgrace plots  
 
* Xmgrace plots  
Line 330: Line 330:
 
|-
 
|-
 
| 10:04
 
| 10:04
|As an Assignment,
+
|As an Assignment-
  
 
* Capture a sound burst  
 
* Capture a sound burst  
  
* Hint: A bell or a clap can be used as source of sound.This is the circuit diagram.
+
Hint: A bell or a clap can be used as source of sound. This is the circuit diagram.
  
 
|-
 
|-
 
|10:15
 
|10:15
|This video summarizes the Spoken Tutorial project.If you do not have good bandwidth, you can download and watch it.
+
|This video summarizes the Spoken Tutorial project. If you do not have good bandwidth, you can download and watch it.
  
 
|-
 
|-
 
|10:24
 
|10:24
|We conduct workshops using Spoken Tutorials and give certificates.Please contact us.
+
|We conduct workshops using Spoken Tutorials and give certificates. Please contact us.
  
 
|-
 
|-
 
|10:32
 
|10:32
|The Spoken Tutorial Project is funded by '''NMEICT, MHRD''' '''Government of India'''.
+
|The Spoken Tutorial Project is funded by NMEICT, MHRD Government of India.
  
 
|-
 
|-
 
|10:40
 
|10:40
|This tutorial is contributed by Kaushik Datta and Madhuri Ganapathi.This is Sakina Sidhwa. Thank you for joining.
+
|This tutorial is contributed by Kaushik Datta and Madhuri Ganapathi. This is Sakina Sidhwa.
 +
Thank you for joining.
  
 
|}
 
|}

Revision as of 23:12, 12 May 2016

Time Narration
00:01 Hello everyone. Welcome to this tutorial on Characteristics of Sound Waves.
00:08 In this tutorial, we will learn to demonstrate:
  • How to generate a sound wave
  • Frequency response of a sound source
  • How to calculate velocity of sound
  • Interference and Beats of sound waves
  • Forced oscillations of a sound source.
00:29 And, show:
  • Xmgrace plots
  • Fourier Transforms and
  • Circuit diagrams for our experiments.
00:38 Here I am using:
  • ExpEYES version 3.1.0
  • Ubuntu Linux OS version 14.10
00:49 To follow this tutorial, you should be familiar with ExpEYES Junior interface. If not, for relevant tutorials, please visit our website.
01:01 Let's first begin with definition of Sound.

Sound is a vibration that propagates as an audible mechanical wave of pressure & displacement.

01:13 It requires a medium to propagate. The medium can be air, water or any metal surface.
01:22 In this tutorial, we will carry out various experiments to show characteristics of sound waves.
01:30 Let's perform an experiment to show frequency of sound waves.
01:35 In this experiment, ground(GND) is connected to Piezo buzzer(PIEZO).

Piezo buzzer(PIEZO) is connected to SQR1.

01:44 Microphone(MIC) is connected to A1. Here Piezo buzzer(PIEZO) is a source of sound.

This is the circuit diagram.

01:55 Let's see the result on the Plot window.
01:59 On the Plot window, under Setting Square waves, set the frequency as 3500Hz.
02:07 Click on SQR1 check box. Frequency of SQR1 is set to 3500Hz. A digitized sound wave is generated.
02:20 Move the frequency slider to change the waveform.
02:27 Click on SQ1 and drag to CH2. Input data of SQ1 is assigned to CH2. A square wave is generated.
02:40 Drag the mSec/div slider to set in compressions and rear-fractions.
02:48 Click on CH2 and drag to FIT. Voltage and frequency of SQ1 is displayed on the right-side.
02:59 Move the frequency slider to set in sound waves.
03:04 Sound wave produced by the Piezo buzzer is shown in black colour.
03:10 Amplitude of the wave changes as Piezo buzzer is moved closer and away from the MIC respectively.
03:19 Now we will demonstrate frequency response of Piezo buzzer.
03:24 On the Plot window click on EXPERIMENTS button. Select Experiment list opens. Click on Frequency Response from the list.
03:39 Two new windows Audio Frequency response Curve and Schematic open. Schematic window shows, circuit diagram of the experiment.
03:52 On the Audio Frequency response Curve window, click on START button.
03:59 Frequency response of the Piezo buzzer is set in. Frequency response has maximum amplitude at 3700Hz.
04:11 On the same window, click on Grace button. Grace window opens showing Frequency response Curve.
04:22 Now we will measure velocity of the source of sound.
04:27 On the Plot window, click on EXPERIMENTS button.

Select Experiment list opens. Click on Velocity of Sound from the list.

04:41 Two new windows EYES Junior: Velocity of Sound and Schematic open. Schematic window shows the circuit diagram of the experiment.
04:55 On EYES Junior: Velocity of Sound window, click on Measure Phase button.
05:02 We can obtain different Phase values by changing the distance between MIC and Piezo buzzer.
05:11 Click Measure Phase button to obtain different Phase values.
05:16 From the various Phase values, we will use 178deg and 106deg to calculate velocity of sound.
05:28 We can obtain these values when Piezo is kept close and 2cm away from the MIC.
05:37 To obtain accurate results, ensure that MIC and Piezo buzzer are placed on the same axis.
05:45 To calculate the value of velocity of sound, we have the formula as shown.

Velocity of sound obtained from the experiment is 350m/sec.

05:59 As an assignment, calculate the value of wavelength of sound. Formula: λ= v/f.
06:09 Now we will demonstrate:
  • Interference
  • Beats
  • Xmgrace plot and
  • Fourier Transform of the two sources of sound.
06:20 To show Grace plots in the experiments,
06:23 make sure that you have installed:
  • python-imaging-tk
  • grace
  • scipy and
  • python-pygrace on your system.
06:34 In this experiment, we use two Piezo buzzers as source of sound.
06:41 In this experiment Piezo 1 is connected to SQR1 and ground(GND). Piezo 2 is connected to SQR2 and ground(GND). This is the circuit diagram.
06:56 Let's see the result on the Plot window.
07:00 On the Plot window, set frequency as 3500Hz.
07:06 Click on SQR1 and SQR2 check boxes. Frequency of SQR1 and SQR2 is set to “3500Hz”.
07:20 A digitized sound wave is generated.
07:24 Move the frequency slider to change the waveform.
07:29 Click on EXPERIMENTS button and select Interference of Sound. EYES: Interference of Sound window opens.
07:39 At the bottom of the window, change NS, that is, number of samples value to 1000.
07:48 Click on SQR1 and SQR2 check boxes. Click on START button. Interference pattern is seen.
08:00 Now click on Xmgrace button. A new window opens with a Grace pattern.
08:08 Now we will show Beats pattern.
08:11 Click on EXPERIMENTS button and select Interference of Sound.

EYES: Interference of Sound window opens.

08:20 At the bottom of the window, click on SQR1 and SQR2 check boxes.
08:28 Click on START button. Beats pattern appears.
08:33 Now, click on Xmgrace button. A new window opens with a Grace pattern.
08:42 Click on FFT. A new window opens with Fourier Transform.
08:49 To know more about Fourier Transform , please visit this webpage.

https://en.wikipedia.org/wiki/Fourier_transform.

08:55 Let us perform an experiment to show a low frequency sound wave. This is the circuit diagram.
09:03 Click on EXPERIMENTS button and select Interference of Sound. EYES: Interference of Sound window opens.
09:13 At the bottom of the window, set the value of SQR1 to 100 and check the box.
09:21 Click on START button, a low amplitude wave is displayed.
09:29 Click on FFT to obtain a Grace plot of Fourier Transform.
09:34 Let's summarize.
09:36 In this tutorial, we have learnt to demonstrate:
  • How to generate a sound wave
  • Frequency response of a sound source
  • How to calculate velocity of sound waves
  • Interference and Beat pattern of sound waves
  • Forced oscillations of sound source.
09:56 And, have shown:
  • Xmgrace plots
  • Fourier Transforms and
  • Circuit diagrams for our experiments.
10:04 As an Assignment-
  • Capture a sound burst

Hint: A bell or a clap can be used as source of sound. This is the circuit diagram.

10:15 This video summarizes the Spoken Tutorial project. If you do not have good bandwidth, you can download and watch it.
10:24 We conduct workshops using Spoken Tutorials and give certificates. Please contact us.
10:32 The Spoken Tutorial Project is funded by NMEICT, MHRD Government of India.
10:40 This tutorial is contributed by Kaushik Datta and Madhuri Ganapathi. This is Sakina Sidhwa.

Thank you for joining.

Contributors and Content Editors

Madhurig, Pratik kamble, Sandhya.np14

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