WOELK, 1974 - Google Patents
The improvement of difference methods with the aid of sectional solutions(for equations of heat conduction)WOELK, 1974
- Document ID
- 4329867752738625721
- Author
- WOELK G
- Publication year
- Publication venue
- Waerme-und Stoffuebertragung
External Links
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| JPS5639434A (en) | Nipple type clinical thermometer | |
| WOELK | The improvement of difference methods with the aid of sectional solutions(for equations of heat conduction) | |
| Nowacki | Plane problems of micropolar elasticity(Micropolar elasticity plane problem singular solution based on stress equations and elastic potentials methods, discussing thermal stress concentration) | |
| GUPTA | On H-functions of radiative transfer(planetary neutron scattering function) | |
| CHAN et al. | Parametric approximations for compressible laminar boundary layers with mass transfers(Universal equations and parametric approximations for compressible laminar boundary layer with mass transfer) | |
| Larina | Investigation of rarefied gas flow past a cold sphere at very high Mach numbers | |
| Yoshida | Equivalent finite elements of different bases(Equivalent finite element model derivation from plate bending triangular element, assumed stress hybrid method and elements with polynomial deflection function) | |
| LANG et al. | Applications of a variational principle to cylindrical Poiseuille flow and heat transfer(Application of variational principle to laminar flow and heat transfer between concentric cylinders) | |
| SU570799A1 (en) | Device for measuring instant values of pulsating temperatures | |
| BERNDT et al. | Transonic flow at a slotted test section wall[Interim Scientific Report, 1 Mar. 1974- 28 Feb. 1975] | |
| KADER | Heat and mass transfer in the initial section of a circular pipe in the presence of a laminar flow(Heat and mass transfer in initial section of circular pipe under stabilized laminar flow, using modified Leveque method) | |
| KASPRZYK et al. | Asymptotic properties of the solutions of a certain nonlinear system(Hartman-Olech theorem to prove asymptotic stability of mechanical system with nonlinear elastic characteristic, analyzing differential equations of motion) | |
| KAPLANSKII | Numerical solution of equations for a turbulent vortex pair in an incompressible fluid | |
| DAVIS | The use of Crocco type variables in the solution of boundary layer problems[Final Report, May- Sep. 1973] | |
| KUCHARCZYK | Geometric separation of solutions of equations of inviscid, heat-conducting gas flows into classes to determine lie derivatives and groups | |
| CARR | An experimental investigation of open cavity pressure oscillations[M. S. Thesis] | |
| GEE | A comparison study of the Eigenvalue method for the solution of the transient heat conduction equation(M. S. Thesis) | |
| SHULEYKIN | Interaction of the components in the ocean-atmosphere-continent system(Mathematical model for climate formation using heat exchanges in ocean-atmosphere-continent interactions) | |
| KORENEV | Problems of the theory of thermal conductivity and thermoelasticity: Solutions in Bessel functions(Russian book) | |
| FORBRICH | The FOODES program description(computer program for solving differential equations with application to fluid mechanics)[Interim Report] | |
| JPS52131248A (en) | Heat conducting device | |
| REINEKE | The computation of the free convection with internal heat sources(German book) | |
| SZUKSZTA | Nonstationary heat exchange in a free molecular range(rarefied gas dynamics and one dimensional flow) | |
| OIKNINE et al. | Contribution to the study of heat transfer between an incompressible fluid and a porous medium(Partial differential equations solution in heat transfer between incompressible fluid and porous medium) | |
| KRIVOSHEIN et al. | Analysis of methods for the solution of integral differential equations and their role in thermo- plastics, torsional vibrations and radiative energy transfer |