This book is an introduction to the basic theory and engineering of advanced electron beam sources known as photoinjectors. Photoinjectors produce relativistic electrons for exciting new devices such as x-ray free electron lasers and the polarized beams for very high energy physics linear colliders. The chapters are written by renowned experts in the field who share their working knowledge of the technologies needed for designing and building photoinjectors.

In this book, readers gain access to real scientific data pertaining to the science of sound production, promoting graph-reading, comparison, contrast, and calculation skills. Graphs show data from the following scientific instruments: Sound Level Meter Tuner This book allows readers to analyze real data without purchasing expensive lab equipment. These data from musical instruments (strings, woodwinds, brass, percussion) can be used for lesson plans by teachers and parents. The musical instruments in this book include violin, flute, clarinet, saxophone, oboe and bassoon reeds, trumpet, trombone, 5 types of recorders (garklein, sopranino, soprano, alto, tenor, and bass), xylophone, drum pad, cymbals, gong, maracas, guiro, claves, triangle, maracas, wood block, castanets, Tibetan bowl, tuning fork, and voice. Bonus Material: Charts comparing tuning systems, instructions on calculating frequencies for different notes and scales, and derivation of the power series underlying just intonation tuning and scales are included. Pictures of the scientific instruments and musical instruments used in Volumes 1 and 2, sample setup pictures and discussion questions regarding laboratory equipment, and pictures of a comparison hydraulic experiment are also included. Notiz: Deutsch Ausgabe separat erhaltlich

In this book, readers gain access to real scientific data pertaining to the science of sound production, promoting graph-reading, comparison, contrast, and calculation skills. Graphs show data from the following scientific instruments: Gas Pressure Sensor Anemometer (Wind Speed) Dual-Range Force Sensor Sound Pressure Meter (Microphone) This book allows readers to analyze real data without purchasing expensive lab equipment. These data from musical instruments (strings, woodwinds, brass, percussion) can be used for lesson plans by teachers and parents. The musical instruments analyzed include violin, flute, clarinet, saxophone, oboe and bassoon reeds, trumpet, trombone, 5 types of recorders (garklein, sopranino, soprano, alto, tenor, and bass), xylophone, drum pad, cymbals, gong, maracas, guiro, claves, triangle, maracas, wood block, castanets, Tibetan bowl, tuning fork, and voice. Bonus Material: Graphs of data for different types of microphone setups (mono, stereo, traditional stereo, &, x-y configuration), graphs of theoretically calculated harmonic waves, and selected instrument measurement specifications are included. Plus, graphs from a simple pneumatic experiment provide contrast and context for the science of music. Notiz: Deutsch Ausgabe separat erhaltlich

In this book, readers gain access to real scientific data pertaining to the science of sound production, promoting graph-reading, comparison, contrast, and calculation skills. Graphs show data from the following scientific instruments: Gas Pressure Sensor Anemometer (Wind Speed) Dual-Range Force Sensor Sound Pressure Meter (Microphone) This book allows readers to analyze real data without purchasing expensive lab equipment. These data from musical instruments (strings, woodwinds, brass, percussion) can be used for lesson plans by teachers and parents. The musical instruments analyzed include violin, flute, clarinet, saxophone, oboe and bassoon reeds, trumpet, trombone, 5 types of recorders (garklein, sopranino, soprano, alto, tenor, and bass), xylophone, drum pad, cymbals, gong, maracas, guiro, claves, triangle, maracas, wood block, castanets, Tibetan bowl, tuning fork, and voice. Bonus Material: Graphs of data for different types of microphone setups (mono, stereo, traditional stereo, &, x-y configuration), graphs of theoretically calculated harmonic waves, and selected instrument measurement specifications are included. Plus, graphs from a simple pneumatic experiment provide contrast and context for the science of music. Notiz: Deutsch Ausgabe separat erhaltlich

Learn about the Science of Shooting Sports Trajectory, Velocity, & Acceleration Translational & Rotational Motion In this book, readers gain access to real scientific data pertaining to shooting sports, promoting graph-reading, comparison, contrast, and calculation skills. Graphs show data from the following scientific instrument: Video Analysis This book allows readers to analyze real data without purchasing expensive lab equipment. Graphs show the trajectory of extra-large foam bullets as they are shot from an air gun at different angles outdoors. Additional graphs analyze the position and movements of two toy guns, a handgun and a rifle, as they move straight and rotate. These data can be used for lesson plans by teachers and parents for lessons in graph-reading, physical science, and physics.

This book provides an overview of the fundamental principles of electronics that are of particular relevance to biologists. This primer is aimed at non-engineers looking for background in the electric circuit concepts needed for studying ion channels, electrophysiology and MRI imaging, the basics of the proper use of amplifiers and filters, and the use of computers to acquire data and control experiments.

This book highlights the application of Time-of-Flight Secondary Ion Mass Spectrometry (ToF-SIMS) for high-resolution surface analysis and characterization of materials. While providing a brief overview of the principles of SIMS, it also provides examples of how dual-beam ToF-SIMS is used to investigate a range of materials systems and properties. Over the years, SIMS instrumentation has dramatically changed since the earliest secondary ion mass spectrometers were first developed. Instruments were once dedicated to either the depth profiling of materials using high-ion-beam currents to analyse near surface to bulk regions of materials (dynamic SIMS), or time-of-flight instruments that produced complex mass spectra of the very outer-most surface of samples, using very low-beam currents (static SIMS). Now, with the development of dual-beam instruments these two very distinct fields now overlap.