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The audio amplifier is at the heart of audio design. Its performance determines largely the performance of any audio system. John Linsley Hood is widely regarded as the finest audio designer around, and pioneered design in the post-valve era. His mastery of audio technology extends from valves to the latest techniques. This is John Linsley Hood's greatest work yet, describing the milestones that have marked the development of audio amplifiers since the earliest days to the latest systems.Including classic amps with valves at their heart and exciting new designs using the latest

Amplifiers, Vacuum-tube. --- Audio amplifiers. --- Transistor audio amplifiers. --- Audio amplifiers --- Amplifiers, Vacuum-tube --- Transistor audio amplifiers --- Electrical Engineering --- Electrical & Computer Engineering --- Engineering & Applied Sciences --- Audio amplifiers, Transistor --- Vacuum-tube amplifiers --- Amplifiers, Audio --- Audio-frequency amplifiers --- Transistor amplifiers --- Amplifiers (Electronics) --- Vacuum-tubes

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Integrated circuits --- Semiconductors --- Electronic circuit design. --- Circuits intégrés --- Semiconducteurs --- Circuits électroniques --- Design and construction. --- Conception et construction --- Calcul --- 621.3.049.77 --- Electronic circuit design --- -microelektronica --- veldeffecttransistor --- bipolaire transistor --- CMOS --- mos --- analoge techniek (analoge elektronica) --- digitaal netwerk --- ic --- halfgeleider --- Crystalline semiconductors --- Semi-conductors --- Semiconducting materials --- Semiconductor devices --- Crystals --- Electrical engineering --- Electronics --- Solid state electronics --- Electronic circuits --- Microelectronics. Integrated circuits --- Design and construction --- (zie ook: diode) --- Materials --- Design --- 621.3.049.77 Microelectronics. Integrated circuits --- Circuits intégrés --- Circuits électroniques --- microelektronica

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Made to Measure introduces a general audience to one of today's most exciting areas of scientific research: materials science. Philip Ball describes how scientists are currently inventing thousands of new materials, ranging from synthetic skin, blood, and bone to substances that repair themselves and adapt to their environment, that swell and flex like muscles, that repel any ink or paint, and that capture and store the energy of the Sun. He shows how all this is being accomplished precisely because, for the first time in history, materials are being "made to measure": designed for particular applications, rather than discovered in nature or by haphazard experimentation. Now scientists literally put new materials together on the drawing board in the same way that a blueprint is specified for a house or an electronic circuit. But the designers are working not with skylights and alcoves, not with transistors and capacitors, but with molecules and atoms. This book is written in the same engaging manner as Ball's popular book on chemistry, Designing the Molecular World, and it links insights from chemistry, biology, and physics with those from engineering as it outlines the various areas in which new materials will transform our lives in the twenty-first century. The chapters provide vignettes from a broad range of selected areas of materials science and can be read as separate essays. The subjects include photonic materials, materials for information storage, smart materials, biomaterials, biomedical materials, materials for clean energy, porous materials, diamond and hard materials, new polymers, and surfaces and interfaces.

Materials --- Technological innovations. --- Aerogel. --- Alkyl. --- Amino acid. --- Antiferromagnetism. --- Argon. --- Asperity (materials science). --- Bacteria. --- Bacteriorhodopsin. --- Band gap. --- Bilayer. --- Bioglass. --- Boron nitride. --- Boron. --- Branching (polymer chemistry). --- Carbon. --- Carrier generation and recombination. --- Catalysis. --- Chain reaction. --- Chemical bond. --- Chemical industry. --- Chemical vapor deposition. --- Chemist. --- Chromophore. --- Coercivity. --- Copolymer. --- Crystal structure. --- Crystal. --- Dendrimer. --- Detergent. --- Diode. --- Dopant. --- Electric charge. --- Electric field. --- Electrode. --- Electrolyte. --- Electrorheological fluid. --- Enzyme. --- Extrinsic semiconductor. --- High pressure. --- Hydrocarbon. --- John Bardeen. --- Laser diode. --- Laser. --- Lipid. --- Lithium niobate. --- Magnetization. --- Martensite. --- Materials science. --- Metglas. --- Micrometer. --- Mixture. --- Molecular sieve. --- Molecule. --- Monomer. --- Noble metal. --- Nonlinear optics. --- Nylon. --- Optical fiber. --- Peptide. --- Phospholipid. --- Photon. --- Piezoelectricity. --- Plastic. --- Polyacetylene. --- Polymer. --- Polymerization. --- Polytetrafluoroethylene. --- Population inversion. --- Processing (Chinese materia medica). --- Protein. --- Quantum well. --- Radical (chemistry). --- Refractive index. --- Resonance. --- Scanning tunneling microscope. --- Scleroprotein. --- Semiconductor. --- Silica gel. --- Silicon. --- Smart material. --- Solar cell. --- Solid-phase synthesis. --- Solid-state electronics. --- Substituent. --- Surface energy. --- Surface reconstruction. --- Synthetic diamond. --- Technology. --- There's Plenty of Room at the Bottom. --- Toughness. --- Transistor. --- Tungsten carbide. --- Valence and conduction bands. --- Vibration. --- Waveguide. --- X-ray. --- Zeolite. --- Ziegler–Natta catalyst. --- Zinc oxide. --- Zirconium.