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1. |
Record Nr. |
UNISALENTO991003122569707536 |
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Autore |
Arbasino, Alberto |
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Titolo |
Le interviste impossibili / A. Arbasino ... [et al.] |
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Pubbl/distr/stampa |
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Descrizione fisica |
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Disciplina |
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Soggetti |
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Radiotrasmissioni - Le interviste impossibili |
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Lingua di pubblicazione |
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Formato |
Materiale a stampa |
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Livello bibliografico |
Monografia |
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2. |
Record Nr. |
UNINA9910837101303321 |
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Autore |
Pepe, Lucio |
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Titolo |
A proposito del 4. libro dei metereologica di Aristotele : memoria di Lucio Pepe (seduta del 21 dicembre1978) / presentata dal socio ordinario Giuseppe Martano |
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Pubbl/distr/stampa |
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Descrizione fisica |
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Locazione |
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Collocazione |
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Lingua di pubblicazione |
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Formato |
Materiale a stampa |
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Livello bibliografico |
Monografia |
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Note generali |
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Estratto dagli "Atti della Accademia di scienze morali e politiche" volume 89-1978 |
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3. |
Record Nr. |
UNINA9910807997103321 |
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Autore |
Tou Stephen |
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Titolo |
Visualization of Fields and Applications in Engineering [[electronic resource]] |
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Pubbl/distr/stampa |
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ISBN |
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1-283-23957-4 |
9786613239570 |
0-470-97826-0 |
0-470-97825-2 |
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Edizione |
[1st ed.] |
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Descrizione fisica |
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1 online resource (384 p.) |
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Classificazione |
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Disciplina |
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Soggetti |
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Electromagnetic fields - Mathematical models |
Electromagnetic fields -- Mathematical models |
Engineering mathematics |
Fluid dynamics - Mathematics |
Fluid dynamics -- Mathematics |
Gravitational waves - Mathematical models |
Gravitational waves -- Mathematical models. Information visualization |
Information visualization |
TECHNOLOGY & ENGINEERING / Imaging Systems |
Engineering mathematics - Mathematics |
Fluid dynamics - Mathematical models |
Gravitational waves |
Engineering & Applied Sciences |
Applied Mathematics |
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Lingua di pubblicazione |
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Formato |
Materiale a stampa |
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Livello bibliografico |
Monografia |
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Note generali |
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Description based upon print version of record. |
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Nota di contenuto |
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Visualization of Fields and Applications in Engineering; Contents; Preface; 1 Introduction; 1.1 A General View; 1.2 Historical Development and Progress in Visual Science; 1.3 Scientific Visualization Philosophy, Techniques and Challenges; 2 Field Descriptions and Kinematics; 2.1 |
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Lagrangian/Eulerian Description and Transformation; 2.2 Curvilinear Coordinates; 2.2.1 Polar Coordinate; 2.2.2 Streamline (Flux Line) Coordinates; 2.2.3 Potential-Stream Function Coordinates; 2.3 Field Kinematics and Visual Attributes; 2.3.1 Field Line Trajectory; 2.3.2 Field Line Integral Curves |
2.3.3 Field Lines, Material Lines and Path Lines2.3.4 Streamlines (Flux Lines); 3 Field Model, Representation and Visualization; 3.1 Field Models and Concepts; 3.2 Scalar Fields and Representation; 3.3 Vector Fields and Representation; 3.4 Vector Icons and Classifications; 3.4.1 Classification Based on Domain Configurations; 3.4.2 Classification Based on Information Levels; 3.4.3 Classification Based on Topological Skeleton; 3.5 Scalar Potential; 3.6 Vector Potential; 3.7 Vector Field Specification; 3.7.1 Helmholtz's Theorem; 3.8 Tensor Contraction and Transport Process Visualization |
3.8.1 Mechanical Energy Function and Heatfunction3.8.2 Strain Energy Trajectory and Strain Function; 3.9 Multiple Fields; 4 Complex Analysis and Complex Potentials; 4.1 Complex Variables/Functions and Applications; 4.2 Complex Analysis and Cauchy-Riemann Equation; 4.3 Differentiation of Complex Function; 4.4 Integration of Complex Functions; 4.5 Visualization of Complex Potentials; 4.5.1 Trajectory Method; 4.5.2 Method of Curvilinear Squares; 4.5.3 Transfer Characteristics and Field Property Evaluation; 4.6 Example 4.1a Visualization of Heat and Fluid Transport in a Corner |
5 Field Mapping and Applications 5.1 Introduction; 5.2 Mapping of Euclidean Geometry; 5.2.1 Congruent Mapping; 5.2.2 Similitude Mapping; 5.2.3 Affine Mapping; 5.3 Inversion Mapping; 5.3.1 Circle Inversion; 5.4 Mapping with Complex Functions; 5.5 Conformal Mapping and Applications; 5.6 Hodograph Method and Mapping; 5.6.1 Conjugate Hodograph; 5.6.2 Hodograph; 5.7 Hodograph Representations and Applications; 5.7.1 Straight Boundaries; 5.7.2 Free Surface; 5.7.3 Special Field Patterns; 5.7.4 Projectile Trajectory in Constant Force Fields; 5.7.5 Motion Trajectory in Central Force Fields |
5.7.6 Trajectory of Charged Particles in Uniform Magnetic Fields5.8 Example 4.1b Mapping of Field Patterns and Image Warping; 6 Tensor Representation, Contraction and Visualization; 6.1 Introduction; 6.2 Development of Tensor Visualization Techniques; 6.2.1 Mohr's Circle; 6.2.2 Tensor Field Line Trajectories (Lines of Principal Stress); 6.2.3 Isochromatics; 6.2.4 Isoclines; 6.2.5 Stress Trajectories; 6.2.6 Slip Lines; 6.2.7 Isopachs; 6.3 Tensor Description and Representation; 6.3.1 Tensor Icons and Classification; 6.4 Tensor Decomposition and Tensor Rank Reduction |
6.4.1 Strain Tensor and Stress Tensor |
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Sommario/riassunto |
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Driven by advances in computer technology, engineering analysis has developed rapidly and extensively in recent times; Visualization of Fields and Applications in Engineering presents the basic techniques for tensor field visualization and mapping of engineering data. Focusing on the fundamental aspects of post processing databases and applications outputs, the author explores existing theories and their integration in tensor field visualization and analysis. The subject covers fundamental theories through to integrated, multi-disciplinary technologies with practical applications in eng |
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