Milano : , : Springer Milan : , : Imprint : Springer, , 2010

1-280-78485-7

9786613695246

88-470-1640-1

1 online resource (377 p.)

La Matematica per il 3+2, , 2038-5722

518

Numerical analysis

Computer science - Mathematics

Applied mathematics

Engineering mathematics

Numerical Analysis

Computational Mathematics and Numerical Analysis

Computational Science and Engineering

Applications of Mathematics

Italiano

Description based upon print version of record.

Includes bibliographical references.

Matlab in 1h30? -- Fondamenti di algebra lineare numerica -- Sistemi lineari -- Approssimazione di autovalori e autovettori -- Equazioni non lineari -- Interpolazione polinomiale -- Integrazione -- Equazioni differenziali ordinarie -- Progetti svolti.

La Matematica Numerica è una disciplina che si sviluppa in simbiosi con il calcolatore. Questo testo propone, oltre a richiami degli argomenti fondamentali, sia Esercizi teorici da risolvere "con carta e penna'', atti a far comprendere meglio al lettore la teoria, sia Laboratori, in cui per un dato problema si debbono scegliere gli algoritmi più adatti, realizzare un programma in linguaggio Matlab per la loro implementazione, infine rappresentare, interpretare ed analizzare alla luce della teoria i risultati numerici. Per ogni Esercizio ed ogni Laboratorio si presenta una risoluzione dettagliata, completata da una ampia discussione critica. Il

testo contiene infine alcuni Progetti, riguardanti il primo gli algoritmi di page ranking dei moderni motori di ricerca, il secondo la determinazione del campo elettrico fra due conduttori, il terzo alcuni sistemi dinamici oscillanti di grande rilevanza in applicazioni elettroniche e biologiche.

Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022

1 online resource (102 p.)

History of engineering & technology

Technology: general issues

Inglese

With current infrastructure, meeting the ever-growing demand for electrical energy across the globe is becoming increasingly difficult. The widespread adoption of both commercial and residential non-dispatchable renewable energy facilities, such as solar and wind, further taxes the stability of the electrical grid, often causing traditional fossil fuel power plants to operate at lower efficiency, and with increased carbon emissions. Hydropower, as a proven renewable energy technology, has a significant part to play in the future global electrical power market, especially as increasing demand for electric vehicles will further amplify the need for dispatchable energy sources during peak charging times. Even with more than a century of proven experience, significant opportunities still exist to expand the worldwide hydropower resources and more efficiently utilize existing hydropower installations. Given this context, this Special Issue of Energies intended to present recent developments and advancements in hydropower

design and operation. This Special Issue includes five articles, authored by international research teams from Japan, Pakistan, Sweden, Norway, the United States, and China. The authors bring the collective expertise of government research laboratories, university professors, industry research engineers, computer scientists, and economists. The articles explore advancements in hydroturbine and pump-turbine design, power plant operation, auxiliary equipment design to mitigate environmental damage, and an exploration of community-owned small hydropower facilities.