Noice & Vibrations
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07:04
Dynamics, Noise&Vibration - Ch. 9 - Digitisation Examples
Added 25 Views / 0 LikesChapter 9 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 9 is entitled DigitIsation. This chapter talks about the conversion process that takes an analogue signal and converts it to a discrete digital signal for process
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29:20
Dynamics, Noise&Vibration - Ch. 9 - Digitisation
Added 25 Views / 0 LikesChapter 9 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 9 is entitled DigitIsation. This chapter talks about the conversion process that takes an analogue signal and converts it to a discrete digital signal for process
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23:36
Dynamics, Noise&Vibration - Ch. 8 - Convolution Integral
Added 31 Views / 0 LikesChapter 8 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 8 is entitled Forced Oscillation: Fourier Analysis. This chapter talks about how Fourier transforms can be used to represent non-periodic functions. This video co
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17:44
Dynamics, Noise&Vibration - Ch. 8 - Delta Function&Convolution Examples
Added 28 Views / 0 LikesChapter 8 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 8 is entitled Forced Oscillation: Fourier Analysis. This chapter talks about how Fourier transforms can be used to represent non-periodic functions. This video is
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28:29
Dynamics, Noise&Vibration - Ch. 8 - Delta Function&Convolution
Added 22 Views / 0 LikesChapter 8 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 8 is entitled Forced Oscillation: Fourier Analysis. This chapter talks about how Fourier transforms can be used to represent non-periodic functions. This video is
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30:18
Dynamics, Noise&Vibration - Ch. 8 - Fourier Transforms Examples
Added 26 Views / 0 LikesChapter 8 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 8 is entitled Forced Oscillation: Fourier Analysis. This chapter talks about how Fourier transforms can be used to represent non-periodic functions. This video is
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13:38
Dynamics, Noise&Vibration - Ch. 8 - Fourier Transforms Properties
Added 23 Views / 0 LikesChapter 8 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 8 is entitled Forced Oscillation: Fourier Analysis. This chapter talks about how Fourier transforms can be used to represent non-periodic functions. This video co
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25:04
Dynamics, Noise&Vibration - Ch. 8 - Fourier Transforms Derivation
Added 32 Views / 1 LikesChapter 8 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 8 is entitled Forced Oscillation: Fourier Analysis. This chapter talks about how Fourier transforms can be used to represent non-periodic functions. This video co
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19:21
Dynamics, Noise&Vibration - Ch. 8 - Fourier Transforms Introduction
Added 24 Views / 0 LikesChapter 8 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 8 is entitled Forced Oscillation: Fourier Analysis. This chapter talks about how Fourier transforms can be used to represent non-periodic functions. This video is
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49:28
Dynamics, Noise&Vibration - Ch. 5 and Ch. 6 Review Question
Added 18 Views / 0 LikesWorked solution for a question covering material covered in Chapters 5 and 6 for Dynamics, Noise&Vibration (code UFMEAW-20-3) at UWE Bristol.Chapter 5 introduces the basic approach for MDOF systems, and Chapter 6 covers the modal analysis approach to solv
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32:14
Dynamics, Noise&Vibration - Ch. 7 - Double Pendulum Example
Added 21 Views / 0 LikesChapter 7 for Dynamics, Noise and Vibration (code UFMEAW-20-3) at UWE Bristol.Chapter 7 is entitled Non-Linear systems and is concerned with finding equations of motion for non-linear systems using energy equations (Lagrange's equation).This video goes th
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11:21
Dynamics, Noise&Vibration - Ch. 7 - Pendulum Example
Added 25 Views / 0 LikesChapter 7 for Dynamics, Noise and Vibration (code UFMEAW-20-3) at UWE Bristol.Chapter 7 is entitled Non-Linear systems and is concerned with finding equations of motion for non-linear systems using energy equations (Lagrange's equation).This video goes th
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36:51
Dynamics, Noise&Vibration - Ch. 7 - Non-linear systems and Lagrange's Equation
Added 18 Views / 0 LikesChapter 7 for Dynamics, Noise and Vibration (code UFMEAW-20-3) at UWE Bristol.Chapter 7 is entitled Non-Linear systems and is concerned with finding equations of motion for non-linear systems using energy equations (Lagrange's equation).This video covers:
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05:25
Dynamics, Noise&Vibration - Ch. 6 - Additional Problem
Added 18 Views / 0 LikesChapter 6 for Dynamics, Noise and Vibration (code UFMEAW-20-3) at UWE Bristol.Chapter 6 concerns the theoretical modal analysis technique, where n coupled equations of motion are converted to n uncoupled modal equations, which eases the solution of proble
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29:33
Dynamics, Noise&Vibration - Ch. 6 - Exercise 1
Added 22 Views / 0 LikesChapter 6 for Dynamics, Noise and Vibration (code UFMEAW-20-3) at UWE Bristol.Chapter 6 concerns the theoretical modal analysis technique, where n coupled equations of motion are converted to n uncoupled modal equations, which eases the solution of proble
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11:19
Dynamics, Noise&Vibration - Ch 4. Review Question
Added 21 Views / 0 LikesDynamics, Noise and Vibration (code UFMEAW-20-3) at UWE Bristol.This video is the worked solution for a review question covering Chapter 4 (SDOF with Periodic Forcing Functions). This question is related to the response of a mass-spring-damper system to a
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19:59
Dynamics, Noise&Vibration - Ch. 3 Review Question
Added 23 Views / 0 LikesDynamics, Noise and Vibration (code UFMEAW-20-3) at UWE Bristol.This video is the worked solution for a review question covering Chapter 3 (Forced Oscillation). This question is related to the response of a mass-spring-damper system to a rectangular step
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22:00
Dynamics, Noise&Vibration - Ch. 2 Review Question
Added 17 Views / 0 LikesDynamics, Noise and Vibration (code UFMEAW-20-3) at UWE Bristol.This video is the worked solution for a review question covering Chapter 2 (Basics of SDOF vibration). This question is related to the free response of a damped single degree of freedom.
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24:08
Dynamics, Noise&Vibration - Ch. 5 - 3DOF Example (Lecture 6)
Added 25 Views / 0 LikesChapter 5 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 5 is entitled The Basics — Multiple Degrees of Freedom. This chapter reviews the basic approach to solve 2 and in some case 3 degree of freedom problems. This vid
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43:41
Dynamics, Noise&Vibration - Ch. 5 - 2DOF Systems Intro (Lecture 6)
Added 28 Views / 0 LikesChapter 5 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 5 is entitled The Basics — Multiple Degrees of Freedom. This chapter (and this video) reviews the basic approach to solve 2 and in some case 3 degree of freedom p
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19:01
Dynamics, Noise&Vibration - Ch. 4 - Exercises (Lecture 5)
Added 21 Views / 0 LikesChapter 4 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 4 is entitled Forced Oscillation: Periodic Functions. This chapter talks about how Fourier series can be used to represent non-sinusoidal periodic functions and h
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41:06
Dynamics, Noise&Vibration - Ch. 4 - Example 2 (Lecture 5)
Added 25 Views / 0 LikesChapter 4 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 4 is entitled Forced Oscillation: Periodic Functions. This chapter talks about how Fourier series can be used to represent non-sinusoidal periodic functions and h
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31:10
Dynamics, Noise&Vibration - Ch. 4 - Example (Lecture 4)
Added 27 Views / 0 LikesChapter 4 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 4 is entitled Forced Oscillation: Periodic Functions. This chapter talks about how Fourier series can be used to represent non-sinuosoidal periodic functions and
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35:49
Dynamics, Noise&Vibration - Ch. 4 - Periodic Functions (Lecture 4)
Added 16 Views / 0 LikesChapter 4 for Dynamics, Noise and Vibration module (code UFMEAW-20-3) at UWE Bristol.Chapter 4 is entitled Forced Oscillation: Periodic Functions. This chapter talks about how Fourier series can be used to represent non-sinuosoidal periodic functions and