Physics of Oscillations and Waves With use of Matlab and Python /

In this textbook a combination of standard mathematics and modern numerical methods is used to describe a wide range of natural wave phenomena, such as sound, light and water waves, particularly in specific popular contexts, e.g. colors or the acoustics of musical instruments. It introduces the read...

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Hlavní autor: Vistnes, Arnt Inge (Autor)
Médium: Elektronický zdroj E-kniha
Jazyk:angličtina
Vydáno: Cham : Springer International Publishing, 2018.
Vydání:1st ed. 2018.
Edice:Undergraduate Texts in Physics,
Témata:
Mechanics.
Physics.
Atmospheric sciences.
Fluids.
ISBN:9783319723143
ISSN:2510-411X
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245 1 0 |a Physics of Oscillations and Waves  |h [electronic resource] :  |b With use of Matlab and Python /  |c by Arnt Inge Vistnes. 
250 |a 1st ed. 2018. 
260 1 |a Cham :  |b Springer International Publishing,  |c 2018. 
300 |a XVIII, 576 p. 273 illus., 257 illus. in color.  |b online resource. 
490 1 |a Undergraduate Texts in Physics,  |x 2510-411X 
500 |a Physics and Astronomy  
505 0 |a Chapter 1: Introduction -- Chapter 2: Free and damped oscillations -- Chapter 3: Forced oscillations and resonance -- Chapter 4: Numerical methods -- Chapter 5: Fourier analysis -- Chapter 6: Waves -- Chapter 7: Sound -- Chapter 8: Dispersion and surface waves on water -- Chapter 9: Electromagnetic waves -- Chapter 10: Reflection, transmission and polarization -- Chapter 11: Measurements of light, dispersion of light, colours -- Chapter 12: Geometric optics -- Chapter 13: Interference, diffraction -- Chapter 14: Wavelet transformation -- Chapter 15: Coherence, dipole radiation and lasers -- Chapter 16: Skin depth and wave guides. 
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520 |a In this textbook a combination of standard mathematics and modern numerical methods is used to describe a wide range of natural wave phenomena, such as sound, light and water waves, particularly in specific popular contexts, e.g. colors or the acoustics of musical instruments. It introduces the reader to the basic physical principles that allow the description of the oscillatory motion of matter and classical fields, as well as resulting concepts including interference, diffraction, and coherence. Numerical methods offer new scientific insights and make it possible to handle interesting cases that can't readily be addressed using analytical mathematics; this holds true not only for problem solving but also for the description of phenomena. Essential physical parameters are brought more into focus, rather than concentrating on the details of which mathematical trick should be used to obtain a certain solution. Readers will learn how time-resolved frequency analysis offers a deeper understanding of the interplay between frequency and time, which is relevant to many phenomena involving oscillations and waves. Attention is also drawn to common misconceptions resulting from uncritical use of the Fourier transform. The book offers an ideal guide for upper-level undergraduate physics students and will also benefit physics instructors. Program codes in Matlab and Python, together with interesting files for use in the problems, are provided as free supplementary material. 
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