Conservation laws—a simple application to the telegraph equation
Conservation laws are a recognized tool in physical and engineering sciences. The classical procedure to construct conservation laws makes use of Noether’s Theorem. It requires the existence of a Lagrange-function for the system under consideration. Two unknown sets of functions have to be determine...
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| Published in | Journal of computational electronics Vol. 7; no. 2; pp. 47 - 51 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Boston
Springer US
01.06.2008
Kluwer Academic Publishers Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Conservation laws are a recognized tool in physical and engineering sciences. The classical procedure to construct conservation laws makes use of Noether’s Theorem. It requires the existence of a Lagrange-function for the system under consideration. Two unknown sets of functions have to be determined. A broader class of such laws is obtained, if Noether’s Theorem is applied together with the Bessel-Hagen extension, raising the number of sets of unknown functions to three. The same conservation laws can be obtained by using the Neutral-Action method with the advantage that only one set of unknown functions is required. Moreover, the Neutral-Action method is also applicable in the absence of a Lagrangian, since for this procedure only the governing differential equations are needed. By this, the Neutral-Action method appears to be the most useful tool in constructing conservation laws for systems with dissipation.
The intention of this paper is to give a reference for further research on this topic rather than showing some detailed calculation on a special subject. Thus, the Neutral-Action method is introduced in detail and is applied to a simple example (the telegraph equation) to show the usefulness of this procedure for further applications in electronics. |
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| AbstractList | Conservation laws are a recognized tool in physical and engineering sciences. The classical procedure to construct conservation laws makes use of Noether’s Theorem. It requires the existence of a Lagrange-function for the system under consideration. Two unknown sets of functions have to be determined. A broader class of such laws is obtained, if Noether’s Theorem is applied together with the Bessel-Hagen extension, raising the number of sets of unknown functions to three. The same conservation laws can be obtained by using the Neutral-Action method with the advantage that only one set of unknown functions is required. Moreover, the Neutral-Action method is also applicable in the absence of a Lagrangian, since for this procedure only the governing differential equations are needed. By this, the Neutral-Action method appears to be the most useful tool in constructing conservation laws for systems with dissipation.
The intention of this paper is to give a reference for further research on this topic rather than showing some detailed calculation on a special subject. Thus, the Neutral-Action method is introduced in detail and is applied to a simple example (the telegraph equation) to show the usefulness of this procedure for further applications in electronics. Conservation laws are a recognized tool in physical and engineering sciences. The classical procedure to construct conservation laws makes use of Noether's Theorem. It requires the existence of a Lagrange-function for the system under consideration. Two unknown sets of functions have to be determined. A broader class of such laws is obtained, if Noether's Theorem is applied together with the Bessel-Hagen extension, raising the number of sets of unknown functions to three. The same conservation laws can be obtained by using the Neutral-Action method with the advantage that only one set of unknown functions is required. Moreover, the Neutral-Action method is also applicable in the absence of a Lagrangian, since for this procedure only the governing differential equations are needed. By this, the Neutral-Action method appears to be the most useful tool in constructing conservation laws for systems with dissipation. The intention of this paper is to give a reference for further research on this topic rather than showing some detailed calculation on a special subject. Thus, the Neutral-Action method is introduced in detail and is applied to a simple example (the telegraph equation) to show the usefulness of this procedure for further applications in electronics. |
| Author | Nordbrock, Uwe Kienzler, Reinhold |
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| DOI | 10.1007/s10825-008-0250-2 |
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| Keywords | Conservation laws Neutral-Action method Telegraph equation Bessel function Conservation law Differential equation Telegrapher equation |
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| References | NordbrockU.KienzlerR.J. Sound Vib.2003259410.1006/jsvi.2002.5227 HoneinT.ChienN.HerrmannG.Phys. Lett. A1991155110.1016/0375-9601(91)90472-K1107669 KienzlerR.HerrmannG.Mechanics in Material Space2000BerlinSpringer0954.74001 Braun, M.: Proc. Est. Acad. Sci. Phys. Math. 46 (1997) HinschH.Elektronik1996BerlinSpringer Noether, E.: Nachr. Ges. Wiss. Göttingen, Math.-Phys. Kl. 2 (1918) OlverP.J.Applications of Lie Groups to Differential Equations1993New YorkSpringer0785.58003 Bessel-Hagen, E.: Math. Ann. 84 (1921) Chien, N., Honein, T., Herrmann, G.: Int. J. Solids Struct. 33 (1996) GurtinM.E.Configurational Forces as Basic Concepts of Continuum Physics2000New YorkSpringer Herrmann, G., Kienzler, R.: Wave Motion 42 (2005) MauginG.A.Material Inhomogeneities in Elasticity1993LondonChapman & Hall0797.73001 Müller, R., Maugin, G.A.: Comput. Mech. 29 (2002) M.E. Gurtin (250_CR2) 2000 P.J. Olver (250_CR4) 1993 H. Hinsch (250_CR11) 1996 250_CR10 250_CR12 U. Nordbrock (250_CR9) 2003; 259 250_CR13 250_CR5 250_CR8 250_CR7 G.A. Maugin (250_CR1) 1993 R. Kienzler (250_CR3) 2000 T. Honein (250_CR6) 1991; 155 |
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| Snippet | Conservation laws are a recognized tool in physical and engineering sciences. The classical procedure to construct conservation laws makes use of Noether’s... Conservation laws are a recognized tool in physical and engineering sciences. The classical procedure to construct conservation laws makes use of Noether's... |
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| SubjectTerms | Applied sciences Conservation laws Construction equipment Differential equations Electrical Engineering Electronics Engineering Exact sciences and technology Existence theorems General (including economical and industrial fields) Mathematical analysis Mathematical and Computational Engineering Mathematical and Computational Physics Mathematical models Mechanical Engineering Optical and Electronic Materials Theorems Theoretical |
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| Title | Conservation laws—a simple application to the telegraph equation |
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