physics 145 introduction to experimental physics i instructor: karine chesnel
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Physics 145 Introduction to Experimental Physics I Instructor: Karine Chesnel Office: N319 ESC Tel: 801- 422-5687 [email protected] Office hours: on appointment Class website: http://www.physics.byu.edu/faculty/chesnel/physics145.aspx. Please help us improve the Phys 145 class. - PowerPoint PPT PresentationTRANSCRIPT
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Physics 145 Introduction to Experimental Physics I
Instructor: Karine Chesnel Office: N319 ESC
Tel: 801- 422-5687 [email protected]
Office hours: on appointment
Class website:
http://www.physics.byu.edu/faculty/chesnel/physics145.aspx
![Page 2: Physics 145 Introduction to Experimental Physics I Instructor: Karine Chesnel](https://reader030.vdocument.in/reader030/viewer/2022032605/56812c59550346895d90e42b/html5/thumbnails/2.jpg)
Please help us improve the Phys 145 class
Thanks for your feedback!
Answer the survey:
https://byu.qualtrics.com/SE/?SID=SV_cMGHYuigPfbYTmk
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Make-up labs
• Opportunity to make up for ONE missed lab
• Labs available at same times than your regular labs: - Wednesday April 11
- Thursday April 12- Friday April 13
• If your prefer not to do it during reading days: labs may also be available on Monday and Tuesday
Please email the instructor, at [email protected] the following information:
1)Your name and section2)Which lab ? (number or title)3)When? (either regular lab time, otherwise specify)
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Lab 13Loudspeakers
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Loudspeakers
Low-fidelity speaker
High-fidelity 4-way speaker High-fidelity
3-way speaker
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Loudspeaker- resonator analogy
Spring – mass resonator
Loudspeaker Cross-section
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Woofer (or boomer)
Loudspeakers
Low frequencies20 – 500Hz
Tweeter
High-frequencies2 - 20 kHz
Medium
Intermediate500 – 5000 Hz
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Woofer
Loudspeakers- lab
Low- pass filter
Tweeter
High- pass filter
Our woofer frequency response to white noise Our tweeter frequency response to white noise
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Cross-over network
Goal: get a flat frequency response over wide range
Cross-over network
tweeter
woofer
For simulation, go to: http://www.diyaudioandvideo.com/Calculator/XOver/
High-pass
Low-pass
Result:
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Woofer
Frequency Response Function
Low- pass filter
Tweeter
High- pass filter
Our woofer frequency response to white noise Our tweeter frequency response to white noise
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Frequency Response Function (FRF)
Ways to measure the FRF of a loudspeaker:
• Use a white random noise (computer generated)- and directly get the FRF
• Use a sharp input pulse (flat Fourier transform)- and look at the time response
• Manually sweep frequency of sinusoidal input- and plot the FRF point by point
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Frequency Response Function (FRF)
Chain of components contributing to the FRF
Potential contributions to non- uniformities in the FRF:
- acoustic environment- microphone- power amplifier- signal preamplifier- …
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Lab 13: Loudspeakers
A. Measure FRF of a woofer and a tweeter
• L13.1: connect all the components in the circuit(don’t forget the reference signal)
• L13.2: Open Frequency Response.vi Send a white noise to the loudspeakerRead the FRF repsonse (Hanning sampling)
• L13.3: measure and print the FRF of the woofer (0 – 10kHz)
• L13.4: Play with loudspeaker enclosure to enhance low frequencies
• L13.5: measure and print the FRF of the tweeter (0 – 10kHz)
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Lab 13: Loudspeakers
B. Build a 2-way cross-over system
• L13.6: Design a first order cross-over network that combines the woofer and the tweeter
• L13.7: Build the cross-over network Measure and print the FRF
Try improvments
• 13.8: Connect you Ipod or mp3 playerand listen to the music
through your loudspeaker system!!