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basic theory of electrical circuits, describes analog and digital
instrumentation, and applies modern methods to evaluate uncertainties in electrical
measurements. It is comprehensive in scope and is designed specifically to meet
the needs of students in physics and electrical engineering who are attending
laboratory classes in electrical measurements. The topics addressed in
individual chapters include the analysis of continuous current circuits;
sources of measurement uncertainty and their combined effect; direct current
measurements; analysis of alternating current circuits; special circuits
including resonant circuits, frequency filters and impedance matching
networks; alternating current measurements; analog and digital oscilloscopes;
non-sinusoidal waveforms and circuit excitation by pulses; distributed
parameter components and transmission lines. Each chapter is equipped with a
number of problems. A special appendix
describes a series of nine experiments, in each case providing a plan of action
for students and guidance for tutors to assist in the preparation and
illustration of the experiment.
basic theory of electrical circuits, describes analog and digital
instrumentation, and applies modern methods to evaluate uncertainties in electrical
measurements. It is comprehensive in scope and is designed specifically to meet
the needs of students in physics and electrical engineering who are attending
laboratory classes in electrical measurements. The topics addressed in
individual chapters include the analysis of continuous current circuits;
sources of measurement uncertainty and their combined effect; direct current
measurements; analysis of alternating current circuits; special circuits
including resonant circuits, frequency filters and impedance matching
networks; alternating current measurements; analog and digital oscilloscopes;
non-sinusoidal waveforms and circuit excitation by pulses; distributed
parameter components and transmission lines. Each chapter is equipped with a
number of problems. A special appendix
describes a series of nine experiments, in each case providing a plan of action
for students and guidance for tutors to assist in the preparation and
illustration of the experiment.
Bartiromo is Research Director at the CNR Institute of Structure of Matter in
Rome and Professor at Roma Tre University. His main research interests
are plasma physics and nuclear fusion. He served as Head of the Physics
Division at ENEA laboratories in Frascati (Rome) and at CNR in
Padua. He is the author of more than 100 papers in scientific journals and
conference proceedings.
Mario De
Vincenzi is Full Professor of Experimental Physics at Roma Tre University,
where for many years he taught in laboratory courses. His research interests
are experimental particle physics and astroparticle physics. He is the author
of more than 100 articles on specialized journals and conference proceedings.
Explains clearly the basic theory of electrical circuits
Describes analog and digital instrumentation at the undergraduate student level
Applies modern methods to evaluate uncertainties in electrical measurements
Meets the needs of students in both physics and electrical engineering
Includes end-of-chapter exercises
Includes supplementary material: [...]
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