Bibliography
753
Ripianu, A. (1979). Mecanica tehnică (Technical mechanics). Ed. Did. Ped., Bucureşti.
Rocard, Y. (1943). Dynamique générale des vibrations. Masson, Paris.
Rocard, Y. (1954). L’instabilité en mécanique. Automobiles, avions, ponts suspendus. Masson,
Paris.
Rohrlich, F. (1965). Classical charged particles. Addison-Wesley, Reading.
Roitenberg, L.N. (1966). Teoriya giroskopicheskikh kompasov (Theory of gyroscopic compasses).
“Nauka”, Moskva.
Roman, P. (1961). Theory of elementary particles. North-Holland, Amsterdam.
Rose, N.V. (1938). Lektsii po analiticheskoĭ mekhanike (Lessons on analytical mechanics). Izd.
Univ., Leningrad.
Roseau, M. (1966). Vibrations nonlinéaires et théorie de la stabilité. Springer-Verlag, Berlin,
Heidelberg, New York.
Rouche, N. and Mawhin, J. (1973). Equations différentielles ordinaires. Masson, Paris.
Rouche, N., Habets, P. and Laloy, M. (1977). Stability theory by Lyapunov’s direct method.
Springer-Verlag, New York, Heidelberg, Berlin.
Routh, E.J. (1892). The advanced part of a treatise on the dynamics of a system of rigid bodies.
Vth ed. Macmillan, New York. (1955). Dover Publ., New York.
Routh, E.J. (1897). The elementary part of a treatise on the dynamics of a system of rigid bodies.
VIth ed. Macmillan, London, New York. (1955). Dover Publ., New York.
Routh, E.J. (1898). Die Dynamik der Systeme starrer Körper. I, II. B.G. Teubner, Leipzig.
Routh, E.J. (1898). Dynamics of particles. Cambridge University Press, Cambridge.
Roy, A.E. (1982). Orbital motion. IInd ed. Adam Hilger, Bristol.
Roy, M. (1962). Dynamique des satélites. Symposium, Paris.
Roy, M. (1965). Mécanique. Corps rigides. Dunod, Paris.
Ruelle, D. (1989). Chaotic evolution and strange attractors. Cambridge University Press,
Cambridge.
Sabatier, P.C. (1978). Applied inverse problem. Springer-Verlag, Berlin, Göttingen, Heidelberg.
Saletan, E.J. and Cromer, A.H. (1971). Theoretical mechanics. J. Wiley and Sons, New York.
Sanders, J.A. and Verhulst, V. (1985). Averaging methods in nonlinear dynamical systems.
Springer-Verlag, New York, Heidelberg, Berlin, Tokyo.
Sansone, G. and Conti, R. (1949). Non-linear differential equations. Pergamon Press, Oxford,
London, Edinborough, New York, Paris, Frankfurt.
Santilli, R.M. (1984). Foundations of theoretical mechanics. I. The inverse problem in Newtonian
mechanics. Springer-Verlag, New York, Berlin, Heidelberg, Tokyo.
Sauer, R. and Szabo, I. (ed.). (1967–1970). Mathematische Hilfsmittel des Ingenieurs
. I-IV.
Springer-Verlag, Berlin, Heidelberg, New York.
Savarensky, E. (1975). Seismic waves. “Mir”, Moscow.
Savet, P.H. (1961). Gyroscops. Theory and design. McGraw-Hill, New York.
Sburlan, S., Barbu, L. and Mortici, C. (1999). Ecuaţii diferenţiale, integrale şi sisteme dinamice
(Differential and integral equations and dynamical systems). Ex Ponto, Constanţa.
Scarborough, J.B. (1958). The gyroscope. Theory and applications. Intersci. Publ., New York.
Schaefer, Cl. (1922). Einführung in die theoretische Physik. Verein Wiss. Verläger, Berlin.
Scheck, F. (2005). Mechanics. From Newton’s laws to deterministic chaos. Springer, Berlin,
Heidelberg, New York.
Schmutzer, E. (1976). Osnovnye printsipy klasicheskoĭ mekhaniki i klasicheskoĭ teoriĭ polia
(Basic principles of classical mechanics and classical field theory). “Mir”, Moskva.
Schoenfliess, A. and Grübler, M. (1901, 1908). Kinematik. In: Encykl. der math., Wiss. IV, B.G.
Teubner, Leipzig.
Schuster, H.G. (1984). Deterministic chaos. Physik-Verlag, Weinheim.
Sedov, L.I. (1959). Similarity and dimensional methods in mechanics. Academic Press,
New York.
Sedov, L.I. (1975). Mécanique des milieux continus. I, II. “Mir”, Moscou.