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3 Feb 2005: Accretion Discs Mathematical Tripos, Part III. Dr G. I. Ogilvie Lent Term 2005. Linear case. In the linear case, the general solution may be found as a linear superposition of elemen-. tary solutions. One may look for elementary solutions in which

15 Feb 2005: A. (1973), Astron. Astrophys. 24, 337]. It is motivated by the dimensional concept that whatever physical process gives.

16 Feb 2005: 24 cm5 g2 K7/2. These opacity laws hold fairly well in ionized accretion discs, Kramers opacity in the outer.

28 Apr 2005: Lucidity, science, and the arts:. what we can learn from. the way perception works. MICHAEL E. McINTYRE. Department of Applied Mathematics and Theoretical Physics,Centre for Mathematical Sciences,. Wilberforce Road,Cambridge CB3 0WA, UK.

7 Apr 2005: Lucidity, science, and the arts:. what we can learn from. the way perception works. MICHAEL E. McINTYRE. Department of Applied Mathematics and Theoretical Physics,Centre for Mathematical Sciences,. Wilberforce Road,Cambridge CB3 0WA, UK.

26 Sep 2005: Adexp(a) = expm(ada). (2.24). 2.4. Differential equations on manifolds. We wish to return to general differential equations on manifolds, as given in (2.1).In order to construct

29 Jan 2005: 20. we might take. E1,1 =. . . . 24 12. ... . , E1,2 =. . . . 24. 2. 4 02.

17 Feb 2005: ω1. )and the. 24. third is at least O(ω1. )– actually, it is easy to prove that it is O. (

24 Feb 2005: Email address: S.Foucart@damtp.cam.ac.uk (Simon Foucart). Preprint submitted to Journal of Approximation Theory 24 February 2005. ... IzvestiyaAkad. Nauk SSSR, Ser. Mat. 15 (1951), 401-420. 24.

15 Aug 2005: a classical Runge–Kutta method, thus obtaining the so-called Runge–Kutta–Munthe-. Kaas (RKMK) class of schemes [24, 17]. ... Matrix Anal. Appl. 15 (1994), pp. 881-902. [24] H. Munthe-Kaas, High order Runge–Kutta methods on manifolds, Appl.