Publications Meetings The Profession Membership Programs Math Samplings Policy & Advocacy In the News About the AMS
|
   
Available in electronic format
Available in print format 		Bulletin of the American Mathematical Society
Bulletin of the American Mathematical Society
ISSN 1088-9485(e) ISSN 0273-0979(p)

     

The mathematical approach to the sonic barrier

Author(s): Cathleen Synge Morawetz
Journal: Bull. Amer. Math. Soc. 6 (1982), 127-145.
MSC (1980): Primary 76H05; Secondary 35M05
MathSciNet review: 640941
Retrieve article in: PDF

References | Similar articles | Additional information

References:

L. Bers, Mathematical aspects of subsonic and transonic gas dynamics, Wiley, New York, 1958. MR 96477

A. V. Bitsadze, Equations of the mixed type, Translated by P. Zador, MacMillan, New York, 1964. MR 163078

G. Guderley, Theorie Schallnaher Störmungen, Springer-Verlag, 1957. Theory of transonic flow, Pergamon Press, New York, 1952.

A. R. Manwell, The Hodograph equations, Hafner Publishing, New York, 1971. MR 468554

J. Cole, Modern developments in transonic flow, SIAM J. Appl. Math. (4) 29 (1975), 763-787. MR 386435

C. S. Morawetz, Mixed equations and transonic flow, Rend. Mat. e Appl. (5) 25 (1966), 482-509. MR 225020

C. S. Morawetz, Well-posed problems and transonic flow, Fluid Dynamics Transactions, Polish Academy of Sciences, 6, Part I, 1972, pp. 325-333. MR 502811

Internat. Union of Theoretical and Applied Mechanics, Symposium Transsonicum, Springer-Verlag, Berlin and New York, Aachen, 1962, K. Oswatitsch (ed.), 1964, Göttingen, 1975, K. Oswatitsch and D. Rues (eds.), 1976. MR 195346

Articles on the state of computational transonic flow are to be found in "Numerical Methods in Fluid Dynamics", Hemisphere Publishing Corporation, 1978, H. J. Wirz and J. J. Smolderen (eds.)

W. F. Ballhaus, Some recent progress in transonic flow computations, pp. 155-236.

W. Schmidt, Progress in transonic flow computations. Analysis and design methods for three dimensional flows, pp. 299-335.

A. Jameson, Transonic flow computations, pp. 1-154.

1.
W. F. Ballhaus and P. M. Goorjian, Implicit finite difference computations of unsteady transonic flows about airfoils, A.I.A.A. Journal 15 (1977); see also 17 (1979).
2.
F. Bauer, P. Garabedian and D. Korn, A theory of supercritical wing sections with computer programs and examples, Lecture Notes in Econom. and Math. Syst., vol. 66, Springer-Verlag, Berlin and New York, 1972. See also with A. Jameson, II, 108, same series and III, 150, same series.
3.
L. Bers, Existence and uniqueness of a subsonic flow past a given profile, Comm. Pure Appl. Math. 7 (1945), 441-504. MR 65334
4.
H. Brezis and G. Stampacchia, The hodograph method in fluid dynamics in the light of variational inequalities, Arch. Rational Mech. Anal. 61 (1976), 1-18. MR 477505
5.
A. Busemann, Widerstand bei geschwindigkeiten naher der schallgeschwindigkeiten, Proc. Third Internat. Congr. Appl. Mech. 1 (1930), 282-285.
6.
A. Busemann, The nonexistence of transonic potential flow, Proc. Sympos. Appl. Math., vol. 4, 1953, pp. 282-285. MR 57115
7.
S. A. Chaplygin, On gas jets, Sci. Mem. Moscow Univ. Math. Phys., No. 21, 1904, pp. 1-21. Trans. NACA TM. 1063 (1944). MR 15979
8.
T. M. Cherry, Flow of a compressible fluid about a cylinder, Proc. Roy. Soc. London Ser. A 192 (1947), 45-79; A 196 (1949), 1-31; 32-36. MR 24754
9.
Pamela Cooke, A uniqueness proof for a transonic flow problem, Indiana Univ. Math. J. 27 (1978), 51-71. MR 483965
10.
R. Engquist and S. Osher, Stable and entropy satisfying approximations for transonic flow calculations, Math. Comp. 34 (1980), 45-75. MR 551290
11.
G. J. Fix, A mixed finite element scheme for transonic flows, ICASE, Hampton, Virginia, Report 76-25, 1976.
12.
F. I. Frankl, On the appearance of compression shocks in subsonic speeds, Prikl. Mat. Meh. 11 (1947), 199-202.
13.
K. O. Friedrichs, Symmetrie positive linear differential equations, Comm. Pure Appl. Math. 11 (1958), 333-418. MR 100718
14.
K. Y. Fung, H. Sobieczky and R. Seebass, Shockfree wing design, A.I.A.A. Journal 18, Article No. 79-1557R, 1980. MR 586600
15.
P. Garabedian and G. McFadden, Design of supercritical swept wings (preprint).
16.
P. Germain, Ecoulements transsoniques homogênes, Progress in Aeronautical Sciences, D. Küchenbaum and L. H. G. Sterne (eds.), Pergamon Press, New York, 1964.
17.
D. Gilbarg, Comparison methods in the theory of subsonic flows, J. Rational Mech. Anal. 2 (1953), 223-251. MR 54435
18.
R. Glowinski and O. Pironneaux, Calcul d'écoulements transonics par des méthodes d'elements finis et de contrôle optimal, Computing Methods in Applied Sciences and Engineering (Sec. Internat. Sympos., Versailles), Part I, Lecture Notes in Econom. and Math. Systems, no. 134, Springer-Verlag, New York, 1976. MR 671118
19.
G. Guderley, On the presence of shocks in mixed subsonic-supersonic flow patterns, Adv. in Appl. Mech. 3 (1953), 145-184. MR 55883
20.
R. A. Hummel, The hodograph method for convex profiles (to appear). MR 681931
21.
A. Jameson, Iterative solution of transonic flow over airfoils and wings including flows at Mach 1, Comm. Pure Appl. Math. 27 (1974), 283-309. MR 375942
22.
R. T. Jones, High speed wing theory, Princeton Univ. Press, Princeton, N.J., 1960.
23.
T. von Karman, Compressibility effects in aerodynamics, J. Aeronaut. Sci. 8 (1941), 337-356. MR 5848
24.
T. von Karman, The engineer grapples with nonlinear problems, Bull. Amer. Math. Soc. 46 (1940), 615-683. MR 3131
25.
E. Koppe and G. Meier, Erfahrungen mit optischen methoden bei der Untersuchung transonischer Strömungen, Jahrgang 5 (1965), 150-157.
26.
S. N. Kruzkov, First order quasilinear equations in several independent variables, Mat. Sb. (N.S.) 81 (123) (1970), 228-255, Amer. Math. Soc. Transl. (1971). MR 267257
27.
M. A. Lavrent'ev and A. Bitsadze, On the problem of equations of mixed type, Doklady 70 (1950), 373-376. See also pp. 561-564. MR 35371
28.
M. J. Lighthill, On the hodograph transformation for high-speed flow. II. A flow with circulation. Quart. J. Mech. Appl. Math. 1 (1948), 442-450. The hodograph transformation in trans-sonic flow. III. Flow around a body, Proc. Roy. Soc. London Ser. A 191 (1947), 341-369. MR 29629
29.
R. Magnus and H. Yoshihara, Inviscid transonic flow over airfoils, A.I.A.A. Journal 8 (1970), 2157-2162.
30.
Th. Meyer, Über zwei dimensionale Bewegungvorgange in einem Gas das mit Überschallgeschwingigkeitstrom, Forschungs hefte 62 (1908).
31.
M. S. Mock, Systems of conservation laws of mixed type, J. Differential Equations 37 (1980), 70-88. MR 583340
32.
C. S. Morawetz, A weak solution for a system of equations of elliptic-hyperbolic type, Comm. Pure Appl. Math. 11 (1958), 315-332. MR 96893
33.
C. S. Morawetz, On the non-existence of continuous transonic flows past profiles. I, Comm. Pure Appl. Math. 9 (1956), 45-68; II 10 (1957), 107-132; III 11 (1958), 129-144. See also 17 (1964), 357-367.[Note] MR 78130
34.
C. S. Morawetz, The Dirichlet problem for the Tricomi equation, Comm. Pure Appl. Math. 23 (1970), 587-601. MR 280062
35.
E. M. Murman and J. D. Cole, Calculation of plane steady transonic flows, A.I.A.A. Journal 9 (1971), 114-121.
36.
G. Y. Nieuwland, The computation by Lighthill's method of transonic potential flow around a family of quasi-elliptical aerofoils, Netherland N.L.R. Tech. Rep. T83, (1964). See also T.1 72.
37.
O. A. Oleinik, Quasi-linear second order parabolic equations with many independent variables, Seminari 1962-63 di Analisi, algebra, geometria e topologia. Istituto Nazionale di alta matematica Edizione Cremonese, 1965. MR 194763
38.
H. H. Pearcey, The aerodynamic design of section shapes for swept wings, Adv. in Aeronautical Sciences 3 (1962) 277-320.
39.
J. Rayleigh, On the flow of a compressible fluid past an obstacle, Philos. Mag. 32 (1916), 1-6.
40.
F. Ringleb, Exakte Lösungen der Differential gleichungen einer adiahatischen Gasströmung, Zeitschrift für angewandte Mathematik und Mechanik 20 (1940), 185-198. MR 3140
41.
M. Shiffman, On the existence of subsonic flows of a compressible fluid, J. Rational Mech. Anal. 1 (1952), 605-652. MR 51651
42.
G. I. Taylor, The flow around a body moving in a compressible fluid, Proc. Third Internat. Congr. Appl. Mech. 1 (1930), 263-275.
43.
F. Tricomi, Sulla equazione lineari alle derivate parziali di secondo ordine, di tipo misto, Rendiconti Atti del Accademia Nazionale dei Lincei, Series 5 14 (1923), 134-247.
44.
R. T. Whitcomb, Review of NASA supercritical airfoils, Ninth Internat. Congr. Aeronautical Sciences, Haifa, 1974.

Similar Articles:

Retrieve articles in Bulletin of the American Mathematical Society with MSC (1980): 76H05, 35M05

Retrieve articles in all Journals with MSC (1980): 76H05, 35M05

Additional Information:

DOI: 10.1090/S0273-0979-1982-14965-5
PII: S 0273-0979(1982)14965-5




AMS and Social Media LinkedIn Facebook Podcasts Twitter YouTube RSS Feeds Blogs Wikipedia