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020    9780750363501 |qebook
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020     |z9780750363488 |qprint
020     |z9780750363518 |qmyPrint
024 7  10.1088/978-0-7503-6350-1 |2doi
035    (CaBNVSL)thg00083936
035    (IOP)9780750363501
035    17162039
040    CaBNVSL |beng |erda |cCaBNVSL |dCaBNVSL
050  4 QC225.15 |b.Z357 2024eb vol. 2
100 1  Zain, Samya, |eauthor. |0http://id.loc.gov/authorities/names/no2020144106
245 14 The physics of sound and music. |nVolume 2, |pLab manual : |ba complete course text / |cSamya Bano Zain.
264  1 Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : |bIOP Publishing, |c[2024]
300    1 online resource : |billustrations (some color).
336    text |btxt |2rdacontent
337    computer |bc |2rdamedia
338    online resource |bcr |2rdacarrier
490 1  [IOP release $release]
490 1  IOP ebooks. [2024 collection]
500    "Version: 20240401"--Title page verso.
504    Includes bibliographical references.
505 0  part I. Introduction. 1. Introduction -- 1.1. Activity-to-do : review of mathematics -- 1.2. Scientific method -- 1.3. Units -- 1.4. A few important concepts -- 1.5. Review of vectors -- 1.6. Speed versus velocity -- 1.7. Graphical representation of motion
505 8  2. Sound, music and noise -- 2.1. What to know about sound, music or noise -- 3. Music, History and Culture -- 3.1. Activity-to-do : create a timeline of musical eras -- 3.2. Activity-to-do : place the musical eras on the world map
505 8  part II. Sound production. 4. Tension and deformations in a string -- 4.1. What to know about energy and force -- 4.2. Activity-to-do : conservation of energy-ball drop -- 4.3. Activity-to-do : deformation in collisions -- 4.4. Activity-to-do : collision impact -- 4.5. Activity-to-do : mass versus weight -- 4.6. Activity-to-do : tension and deformation in rubber bands -- 4.7. Activity-to-do : calculate tension (T) in a guitar string
505 8  5. Vibrating systems -- 5.1. What to know about vibrating systems -- 5.2. Activity-to-do : waves on a string -- 5.3. Activity-to-do : standing waves I--string (or spring) -- 5.4. Activity-to-do : standing waves II--nodes in water bottles -- 5.5. Activity-to-do : 'seeing' sound waves -- 5.6. Activity-to-do : SHM--simple pendulum. How does the period depend on the amplitude of the swing in a simple pendulum? -- 5.7. Activity-to-do : how does the period depend on the length of a simple pendulum -- 5.8. Activity-to-do : how does the period of a pendulum change with length--II -- 5.9. Activity-to-do : reflection I : ball and wall -- 5.10. Activity-to-do : reflection II : pencil and mirror -- 5.11. Activity-to-do : reflection III : verify the laws of reflection using lasers -- 5.12. Activity-to-do : reflection IV : verify the laws of reflection using pins -- 5.13. Activity-to-do : reflection V : reflections of sound waves -- 5.14. Activity-to-do : understanding interference -- 5.15. Activity-to-do : beats
505 8  6. Damping and resonance in musical instruments -- 6.1. What to know about resonance and damping -- 6.2. Activity-to-do : 'seeing' simple harmonic motion--mass attached to a spring -- 6.3. Activity-to-do : spring force--calculate the period (T) -- 6.4. Activity-to-do : damped simple harmonic oscillator (SHO) -- 6.5. Sympathetic vibration -- 6.6. Activity-to-do : Helmholtz resonator -- 6.7. Activity-to-do : singing rods
505 8  part III. Sound propagation. 7. Sound propagation -- 7.1. What to know about sound propagation
505 8  8. Factors impacting sound propagation -- 8.1. What to know about factors impacting sound propagation -- 8.2. Refraction -- 8.3. Diffraction -- 8.4. Activity-to-do : Doppler effect
505 8  part IV. Sound reception. 9. Sound power and sound intensity -- 9.1. Terms to know about sound intensity and relevant concepts -- 9.2. Pressure, force, energy -- 9.3. Stress and strain -- 9.4. Sound pressure level, sound power level and sound intensity level -- 9.5. Loudness and loudness level
505 8  10. The human factor -- 10.1. Terms to know about human hearing and sight and relevant concepts -- 10.2. Hearing and sight -- 10.3. Left-brained versus right-brained -- 10.4. Activity-to-do : critical bands
505 8  11. Psychoacoustics -- 11.1. Terms to know about human hearing and sight and relevant concepts -- 11.2. Binaural hearing -- 11.3. Activity-to-do : echolocation -- 11.4. Activity-to-do : masking
505 8  12. Acoustics of rooms -- 12.1. Terms to know about room acoustics -- 12.2. Sound propagation -- 12.3. Acoustics of rooms -- 12.4. Designing spaces
505 8  part V. Of sound and music. 13. Musical tones, pitch, timbre and vibrato -- 13.1. Terms to know about musical tones and pitch -- 13.2. Musical tones and pitch -- 13.3. Vibrato -- 13.4. Activity-to-do : just notable difference (JND) for sound--frequency JND
505 8  14. A musician's graph paper and musical scales -- 14.1. Terms to know about musical graph paper
505 8  part VI. Musical instruments. 15. String instruments -- 15.1. Terms to know about string instruments -- 15.2. String instruments -- 15.3. Activity-to-do : make your own guitar -- 15.4. Soundboards -- 15.5. Activity-to-do : singing wineglasses
505 8  16. Percussion instruments -- 16.1. Terms to know about percussion instruments -- 16.2. Activity-to-do : class activity : homemade xylophone (pipe) -- 16.3. Activity-to-do : class activity : bottle xylophone -- 16.4. Activity-to-do : class activity : make your own kazoo
505 8  17. Wind instruments -- 17.1. What to know about wind instruments.
506    Access restricted by licensing agreement.
520 3  This second volume of The Physics of Sound and Music: A complete course text is a lab manual providing a complete resource to accompany undergraduate courses on the physics of sound and music, and is supplemented by the textbook in volume one of this two-volume set. It is written in an accessible, clear and conversational style with the intent of engaging students and teaching physics without appearing overwhelming. The manual consists of practical and written activities that can be completed independently or during laboratory time (both in-person and online), and includes space for students to write their answers.
521    This is a core text for one-semester, undergraduate (100-level) courses on the physics of sound or music. Volume 1 accompanies the lectures and Volume 2 accompanies the lab work. It will be particularly useful for courses aimed at non-physics majors with little experience of algebra or calculus.
530    Also available in print.
545    Samya Zain is a Professor of Physics at Susquehanna University, USA, where she was awarded the Distinguished Teaching Award in 2016. She has been a member of the BaBar scientific research collaboration at SLAC (Stanford Linear Accelerator Center) at Stanford University, California, and the ATLAS collaboration at CERN, Geneva. Her previous books Techniques of Classical Mechanics: From Lagrangian to Newtonian Mechanics and Thermodynamics and Statistical Mechanics: An Introduction for Physicists and Engineers were published by IOP Publishing in 2019 and 2021, respectively.
588 0  Title from PDF title page (viewed on May 1, 2024).
590    Access is available to the Yale community.
650  0 Sound |vTextbooks.
650  0 Music |xAcoustics and physics |vTextbooks.
710 2  Institute of Physics (Great Britain), |epublisher. |0http://id.loc.gov/authorities/names/n80085293
730 0  IOP ebooks.
776 08  |iPrint version: |z9780750363488 |z9780750363518
830  0 IOP (Series). |pRelease 24.
830  0 IOP ebooks. |p2024 collection.
852 80  |zOnline resource
856 40  |yOnline book |uhttps://yale.idm.oclc.org/login?URL=https://iopscience.iop.org/book/mono/978-0-7503-6350-1
901    QC225.15
902    Yale Internet Resource |bYale Internet Resource >>  None|DELIM|17038648
905    online resource
907    2024-05-15T14:59:33.000Z
946    DO NOT EDIT. DO NOT EXPORT.
953    https://iopscience.iop.org/book/mono/978-0-7503-6350-1