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Acoustic Modelling

Tutkimustuotosvertaisarvioitu

Standard

Acoustic Modelling. / Pohjolainen, Seppo; Suutala, Antti.

Mathematical Modelling. toim. / Seppo Pohjolainen. Switzerland : Springer, 2016. s. 185-205.

Tutkimustuotosvertaisarvioitu

Harvard

Pohjolainen, S & Suutala, A 2016, Acoustic Modelling. julkaisussa S Pohjolainen (Toimittaja), Mathematical Modelling. Springer, Switzerland, Sivut 185-205. https://doi.org/10.1007/978-3-319-27836-0_11

APA

Pohjolainen, S., & Suutala, A. (2016). Acoustic Modelling. teoksessa S. Pohjolainen (Toimittaja), Mathematical Modelling (Sivut 185-205). Switzerland: Springer. https://doi.org/10.1007/978-3-319-27836-0_11

Vancouver

Pohjolainen S, Suutala A. Acoustic Modelling. julkaisussa Pohjolainen S, toimittaja, Mathematical Modelling. Switzerland: Springer. 2016. s. 185-205 https://doi.org/10.1007/978-3-319-27836-0_11

Author

Pohjolainen, Seppo ; Suutala, Antti. / Acoustic Modelling. Mathematical Modelling. Toimittaja / Seppo Pohjolainen. Switzerland : Springer, 2016. Sivut 185-205

Bibtex - Lataa

@inbook{b6152fe97d11436494d23f4c926964d2,
title = "Acoustic Modelling",
abstract = "Let us examine the behaviour of sound in a gas or in a liquid medium. From a physical point of view, the sound we hear is created by the pressure change in the medium surrounding us that is sensed by our ears. The equations describing the behaviour of a liquid or a gas are based on well-known equations of fluid mechanics. Therefore in acoustics, they are often referred to as fluids. In the following sections we present a simple wave equation, which is the simplest of (linear) equations used to model acoustical phenomena. Even though the wave equation is quite a simplified model, it has proven to be extremely useful for describing the behaviour of sound in the most common fluid we face every day, namely air.",
author = "Seppo Pohjolainen and Antti Suutala",
note = "INT=mat,”Suutala, Antti{"}",
year = "2016",
month = "6",
day = "30",
doi = "10.1007/978-3-319-27836-0_11",
language = "English",
isbn = "978-3-319-27834-6",
pages = "185--205",
editor = "Seppo Pohjolainen",
booktitle = "Mathematical Modelling",
publisher = "Springer",

}

RIS (suitable for import to EndNote) - Lataa

TY - CHAP

T1 - Acoustic Modelling

AU - Pohjolainen, Seppo

AU - Suutala, Antti

N1 - INT=mat,”Suutala, Antti"

PY - 2016/6/30

Y1 - 2016/6/30

N2 - Let us examine the behaviour of sound in a gas or in a liquid medium. From a physical point of view, the sound we hear is created by the pressure change in the medium surrounding us that is sensed by our ears. The equations describing the behaviour of a liquid or a gas are based on well-known equations of fluid mechanics. Therefore in acoustics, they are often referred to as fluids. In the following sections we present a simple wave equation, which is the simplest of (linear) equations used to model acoustical phenomena. Even though the wave equation is quite a simplified model, it has proven to be extremely useful for describing the behaviour of sound in the most common fluid we face every day, namely air.

AB - Let us examine the behaviour of sound in a gas or in a liquid medium. From a physical point of view, the sound we hear is created by the pressure change in the medium surrounding us that is sensed by our ears. The equations describing the behaviour of a liquid or a gas are based on well-known equations of fluid mechanics. Therefore in acoustics, they are often referred to as fluids. In the following sections we present a simple wave equation, which is the simplest of (linear) equations used to model acoustical phenomena. Even though the wave equation is quite a simplified model, it has proven to be extremely useful for describing the behaviour of sound in the most common fluid we face every day, namely air.

U2 - 10.1007/978-3-319-27836-0_11

DO - 10.1007/978-3-319-27836-0_11

M3 - Chapter

SN - 978-3-319-27834-6

SP - 185

EP - 205

BT - Mathematical Modelling

A2 - Pohjolainen, Seppo

PB - Springer

CY - Switzerland

ER -