Multidimensional Inverse Problems for Differential EquationsSpringer, 21 Ara 1970 - 59 sayfa |
Kitabın içinden
26 sonuçtan 1-3 arası sonuçlar
Sayfa 2
... determining a function from its mean values over circles . Although , as we have indicated already , uniqueness has ... determine u ( x , s ) from the given integrals . Denote the coordinates of the second focus by ( x ° , 0 ) = ( x1 ...
... determining a function from its mean values over circles . Although , as we have indicated already , uniqueness has ... determine u ( x , s ) from the given integrals . Denote the coordinates of the second focus by ( x ° , 0 ) = ( x1 ...
Sayfa 10
... determine our even function of S uniquely . Using the resultant system of moments , one can construct an inversion formula in a similar way to the case n = 1 . 2. Generalization to Analytic Curves The method of determining a function ...
... determine our even function of S uniquely . Using the resultant system of moments , one can construct an inversion formula in a similar way to the case n = 1 . 2. Generalization to Analytic Curves The method of determining a function ...
Sayfa 22
... determining the coefficient a ( x , y , z ) a ( x , y , z ) in the telegraph equation 224 225 224 224 at = ах + + a ... determine the coefficient , we need to know information of the same dimensionality as that of the coefficient a ( x ...
... determining the coefficient a ( x , y , z ) a ( x , y , z ) in the telegraph equation 224 225 224 224 at = ах + + a ... determine the coefficient , we need to know information of the same dimensionality as that of the coefficient a ( x ...
İçindekiler
CHAPTER | 1 |
Problem of Determining a Function inside a Circle from | 13 |
On the Problem of Determining a Function from Its Mean | 19 |
Telif Hakkı | |
4 diğer bölüm gösterilmiyor
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
absolutely integrable functions analytic function arbitrary belong boundary conditions CAUCHY data chapter consider const continuous function corresponding Denote derive determining a function differential equation domain earth's ellipses ellipsoid of revolution exists expression family of curves following theorem function u(r fundamental solution given GREEN'S function half-plane half-space HOLDER condition hyperplane inequality 16 initial and boundary integral equation integral geometry integral-geometric problem Introduce the notation inverse kinematic inverse kinematic problem inverse problem inversion formula kernel L₁ linearized inverse problem M₁ mean values multidimensional inverse problems n₁ obtain operator L defined parameters polar problem for equation problem of determining Q₂ R₁ R₂ relations right-hand side second kind SM,t solution to equation take FOURIER transforms telegraph equation travel-times two-parameter family u₁ M,M,t unique solution uniqueness theorem unit circle values over spheres variables VOLTERRA equation waves wxxx θε ду эф