In the first case, a finite of infinite solenoid is modeled through the superposition of a lot of loops, and the generated magnetic field is computed on the axis using the expression for a single coil.Gabriel Raffa Gabriel Raffa This person is not on ResearchGate, or hasnt claimed this research yet.Figures - uploaded by Liliana Ines Perez Author content All figure content in this area was uploaded by Liliana Ines Perez Content may be subject to copyright.
Fisica Para Ciencias E Ingenieria Mckelvey Tomo 2 Free Public FullDiscover the worlds research 20 million members 135 million publications 700k research projects Join for free Public Full-text 1 Content uploaded by Liliana Ines Perez Author content All content in this area was uploaded by Liliana Ines Perez on Jun 17, 2015 Content may be subject to copyright.
Magnetic field of a solenoid of arbitrary cross-sectional shape Article Full-text available Aug 1985 AM J PHYS Frank Munley View External dc Field of a Long Solenoid Article Nov 1965 AM J PHYS D. B. Brick A. W. Snyder The external dc field of a long solenoid is investigated. An exact solution is obtained in the form of an infinite series. For three cases, the series reduces to simple analytical expressions amenable to slide-rule computation: (a) the infinitely long solenoid for which the external field is zero, (b) the field far from the ends of a long finite solenoid for radial distances close to the solenoid surface, and (c) the long solenoid at radii comparable to and greater than the solenoid half-length. The variations with radial distance of the approximate expressions derived for cases (b) and (c) are plotted parametrically over a large-range of radial distances. Exact results are also plotted for two typical solenoid length-to-radius values obtained by numerical integration. Agreement of the exact results with the approximate expression for case (c) over the entire range of radial distances is extremely good. Expression (b) is a good approximation only for small radial distances; however, for typical solenoid length-to-radius values, the two expressions (b) and (c) converge for small r. View Show abstract On the Magnetic Induction Field of an Ideal Solenoid Article Jul 1985 AM J PHYS Walter Hauser View Magnetic field due to a solenoid Article Mar 1984 AM J PHYS Basab B. G. Gonzlez Patricio Sorichetti Francisco E. Veiras. Betina Abadi The main objective of the project is to develop high performance ultrasonic sensors, applicable to biological and medical optoacoustic imaging. In this context, a high performance sensor should hav e large bandwidth, high spatial resolution, and adequate sensitivity. The research will be devoted to the study and devolopment of sensors based on piezoelectric and optical technologies.. View project Project Study and development of photothermal systems M. G. Gonzlez Alejandro Peuriot Vernica Slezak Photothermal techniques are very useful in areas such as measuring gas traces, determining the properties of liquids and solids or forming virtual images of opaque objects. Other characteristics in clude simplicity, relative low cost and the flexibility to apply them to numerous measurement processes. Fisica Para Ciencias E Ingenieria Mckelvey Tomo 2 Trial Or BiologicalThe main objective of this project is the implementation of innovative devices based on this technique such as systems for the characterization of gases, liquids and nanoparticles that have an environmental, industrial or biological interest.. View project Project Study and development of different electrode systems in high-power fast-transverse-flow CO2 lasers M. G. Gonzlez Guillermo Santiago Time-consuming, trial and error methods have usually been key tools in the design and search of optimum performance of the electrodes in fast-transverse-flow CO2 lasers. These tests sought a large, uniformly pumped volume and high small-signal gain. The later is determined by a complex interaction between the electron density, the flow speed and the electron generation and recombination processes that have not been taken into account in previous reports. In order to overcome these problems we will develope a simple analytical model that includes the above mentioned processes. The results will enable us to evaluate the performance of several electrode systems using data obtained in our laboratory and from other authors reports. The predictions of the model will be verified through the measurement of the spatial gain distribution.. View project Article Full-text available IS THE SOLENOID INFINITELY LONG September 2010 Anales AFA Mara Luz Franqueiro Gastn Manestar Eduardo Poggio. ES INFINITO IS THE SOLENOID INFINITELY LONG June 2012 Mara Luz Franqueiro Gastn Manestar Eduardo Poggio. In elementary Electricity and Magnetism courses the magnetic field of a solenoid is computed using either the Biot Savarts Law or the Ampres Law (considering linear materials), assuming many-but not clearly specified-approximations.
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