Some twenty years ago the author published a book entitled The Physics of Particle Detectors. Much has evolved since that time, not in the basic physics, but in the complexity, number and versatility of the detectors commonly used in experiments, beam-lines and accelerators. Those changes have been heavily influenced by the concurrent dramatic changes in the microelectronics industry. In parallel, the use of computer-aided teaching has also greatly improved. The present volume explores the physics needed to understand the full suite of front-end devices in use today. In particular the physics explanation is made concurrently with the specific device being discussed, thus making the coupling more immediate. That study is made more interactive by using newer educational tools now available such as dynamic Matlab Apps.

Some twenty years ago the author published a book entitled The Physics of Particle Detectors. Much has evolved since that time, not in the basic physics, but in the complexity, number and versatility of the detectors commonly used in experiments, beam-lines and accelerators. Those changes have been heavily influenced by the concurrent dramatic changes in the microelectronics industry. In parallel, the use of computer-aided teaching has also greatly improved. The present volume explores the physics needed to understand the full suite of front-end devices in use today. In particular the physics explanation is made concurrently with the specific device being discussed, thus making the coupling more immediate. That study is made more interactive by using newer educational tools now available such as dynamic Matlab Apps.

In this information book, children will discover the different types of instruments and sounds that make up a variety of music groups. A simple quiz and glossary can be found at the back of the book. Be in a Band is part of the Galaxy range of books from Rising Stars Reading Planet. Galaxy provides captivating fiction and non-fiction for Pink A to White band. The rich collection of highly decodable books immerses children in a range of cross-curricular topics and genres. Reading Planet books have been carefully levelled to support children in becoming fluent and confident readers. Each book features useful notes and activities to support reading at home as well as comprehension questions to check understanding. Reading age: 6-7 years

Join Barnaby Bear as he travels all over Japan, visiting new places and making new friends. Follow him as he walks among bamboo, takes the bullet train, climbs up Mount Fuji and takes a hot bath with Snow Monkeys! Barnaby Bear Goes to Japan is part of the Galaxy range of books from Rising Stars Reading Planet. Galaxy provides captivating fiction and non-fiction for Pink A to White band. The rich collection of highly decodable books immerses children in a range of cross-curricular topics and genres. Reading Planet books have been carefully levelled to support children in becoming fluent and confident readers. Each book features useful notes and activities to support reading at home as well as comprehension questions to check understanding. Reading age: 6-7 years

'The computer simulations can readily illustrate the physical ideas inside the equations and leave the reader immediately able to perform new simulations. The book is aimed at a new student of accelerator physics, and would be suitable for both undergraduate and postgraduate study. The book would also be interesting for a professional looking to use Matlab in their work ... The text is nicely written and easy to follow ... This book is ideally suited to a student new to the field who would like to quickly get up to speed with making real numerical simulations.'Contemporary PhysicsThis book explores a first introduction to particle beams and accelerators. The text uses the suite of tools made available in the MATLAB package. Since many colleges have a site wide license, these tools are often freely available to students. A brief introduction to those tools is made initially. Analogues in classical optics are introduced where useful. The text is compact and focuses on graphical data display and dynamical 'movies' as an aid to understanding specific systems. Hands on dialogue using command line inputs, 'apps', and 'live' tools are stressed. The extensive algebraic steps are subsumed into the associated scripts, where the symbolic math utilities spare the reader from the math manipulations. Both beams and periodic structures are covered. Dispersion, insertions, acceleration and light sources are discussed.

Too often descriptions of detectors focus on the 'what' and not the 'why'. This volume aims to elucidate how the requirements of the physics at the Large Hadron Collider (LHC) define the detector environment. In turn, the detector choices are made to adopt to that environment. The goal of LHC physics is to explore the mechanism for electroweak symmetry breaking. Because of the minuscule cross-sections which need to be explored, 0.1 fb, the LHC needs to provide 100 fb-1/yr, or an instantaneous luminosity of 1034 / (cm2 sec). With a bunch crossing interval of 25 nsec, well matched to detector speeds, there will be 25 events occupying each bunch crossing.Thus the physics requires fast, finely segmented, low noise and radiation resistant detectors which provide redundant measurements of the rarely produced electrons and muons. To achieve those goals, new ground was broken in constructing the A Toroidal LHC ApparatuS (ATLAS) and Compact Muon Solenoid (CMS) detectors in the vertex detectors, tracking systems, calorimetry, strong magnets, muon systems, front end electronics, trigger systems, and in the data acquisition methods used.

Too often descriptions of detectors focus on the 'what' and not the 'why'. This volume aims to elucidate how the requirements of the physics at the Large Hadron Collider (LHC) define the detector environment. In turn, the detector choices are made to adopt to that environment. The goal of LHC physics is to explore the mechanism for electroweak symmetry breaking. Because of the minuscule cross-sections which need to be explored, 0.1 fb, the LHC needs to provide 100 fb-1/yr, or an instantaneous luminosity of 1034 / (cm2 sec). With a bunch crossing interval of 25 nsec, well matched to detector speeds, there will be 25 events occupying each bunch crossing.Thus the physics requires fast, finely segmented, low noise and radiation resistant detectors which provide redundant measurements of the rarely produced electrons and muons. To achieve those goals, new ground was broken in constructing the A Toroidal LHC ApparatuS (ATLAS) and Compact Muon Solenoid (CMS) detectors in the vertex detectors, tracking systems, calorimetry, strong magnets, muon systems, front end electronics, trigger systems, and in the data acquisition methods used.

Take Care of Yourself With the Power of Herbs and Spices! #1 New Release in Herbs, Spices & Condiments "...health-conscious recipes that don't skimp on flavor. Dr. Joe and Chef Daniel blend both worlds so well-anyone can cook with cannabinoids!" -bestselling author Becca Anderson The 11 rich foods that can give your body health benefits, without using any CBD or hemp products The word "cannabinoid" can be jarring, but it doesn't mean what you think. We have a whole system named after pot called the endocannabinoid system (ECS), composed of receptors and enzymes that help regulate a variety of our bodily functions. "Endocannabinoid" means cannabis-like substances that naturally occur inside us. The ECS is a chemical communication system that performs the vital function of achieving and maintaining homeostasis, or balance, within the body. Homeostasis is your body's efforts to keep everything in the right zone. This includes our sleep cycle, mood, memory, appetite, pain sensations, and so much more. Discover wonderful uses of turmeric, basil, rosemary, flax, oregano, cloves, cinnamon, cacao, and more. It is perfectly understandable to be wary about holistic foods and their healing properties. However, when used and prepared correctly these rich foods are full of natural healing remedies that can help you ease pain, sleep better, de-stress, and so much more. Jam-packed with healing ingredients, making easy and healthy dinner ideas has never been easier. The Cannabinoid Cookbook provides a ton of healthy recipes using healing herbs and spices that can kick-start your ECS and help you feel better each day! Learn about: Common herbs and spices that can create an endocannabinoid response How to use these recipes to heal pain, inflammation, and other bodily issues Easy and delicious recipes that heal you, inside and out If you enjoyed books like Alchemy of Herbs, The Anti-Inflammatory Diet, or The Science of Spice, then you'll love The Cannabinoid Cookbook!

Recent advances in the understanding of star formation and evolution have been impressive and aspects of that knowledge are explored in this volume. The black hole stellar endpoints are studied and geodesic motion is explored. The emission of gravitational waves is featured due to their very recent experimental discovery.The second aspect of the text is space exploration which began 62 years ago with the Sputnik Earth satellite followed by the landing on the Moon just 50 years ago. Since then Mars has been explored remotely as well as flybys of the outer planets and probes which have escaped the solar system. The text explores many aspects of rocket travel. Finally possibilities for interstellar travel are discussed.All these topics are treated in a unified way using the Matlab App to combine text, figures, formulae and numeric input and output. In this way the reader may vary parameters and see the results in real time. That experience aids in building up an intuitive feel for the many specific problems given in this text.

Recent advances in the understanding of star formation and evolution have been impressive and aspects of that knowledge are explored in this volume. The black hole stellar endpoints are studied and geodesic motion is explored. The emission of gravitational waves is featured due to their very recent experimental discovery.The second aspect of the text is space exploration which began 62 years ago with the Sputnik Earth satellite followed by the landing on the Moon just 50 years ago. Since then Mars has been explored remotely as well as flybys of the outer planets and probes which have escaped the solar system. The text explores many aspects of rocket travel. Finally possibilities for interstellar travel are discussed.All these topics are treated in a unified way using the Matlab App to combine text, figures, formulae and numeric input and output. In this way the reader may vary parameters and see the results in real time. That experience aids in building up an intuitive feel for the many specific problems given in this text.

An unsung classic of nineteenth-century Russian literature, Karolina Pavlova's A Double Life alternates prose and poetry to offer a wry picture of Russian aristocratic society and vivid dreams of escaping its strictures. Pavlova combines rich narrative prose that details balls, tea parties, and horseback rides with poetic interludes that depict her protagonist's inner world-and biting irony that pervades a seemingly romantic description of a young woman who has everything. A Double Life tells the story of Cecily, who is being trapped into marriage by her well-meaning mother; her best friend, Olga; and Olga's mother, who means to clear the way for a wealthier suitor for her own daughter by marrying off Cecily first. Cecily's privileged upbringing makes her oblivious to the havoc that is being wreaked around her. Only in the seclusion of her bedroom is her imagination freed: each day of deception is followed by a night of dreams described in soaring verse. Pavlova subtly speaks against the limitations placed on women and especially women writers, which translator Barbara Heldt highlights in a critical introduction. Among the greatest works of literature by a Russian woman writer, A Double Life is worthy of a central place in the Russian canon.

Why simple technological solutions to complex social issues continue to appeal to politicians and professionals who should (and often do) know better. Why do we keep trying to solve poverty with technology? What makes us feel that we need to learn to code--or else? In The Promise of Access, Daniel Greene argues that the problem of poverty became a problem of technology in order to manage the contradictions of a changing economy. Greene shows how the digital divide emerged as a policy problem and why simple technological solutions to complex social issues continue to appeal to politicians and professionals who should (and often do) know better.

An unsung classic of nineteenth-century Russian literature, Karolina Pavlova's A Double Life alternates prose and poetry to offer a wry picture of Russian aristocratic society and vivid dreams of escaping its strictures. Pavlova combines rich narrative prose that details balls, tea parties, and horseback rides with poetic interludes that depict her protagonist's inner world-and biting irony that pervades a seemingly romantic description of a young woman who has everything. A Double Life tells the story of Cecily, who is being trapped into marriage by her well-meaning mother; her best friend, Olga; and Olga's mother, who means to clear the way for a wealthier suitor for her own daughter by marrying off Cecily first. Cecily's privileged upbringing makes her oblivious to the havoc that is being wreaked around her. Only in the seclusion of her bedroom is her imagination freed: each day of deception is followed by a night of dreams described in soaring verse. Pavlova subtly speaks against the limitations placed on women and especially women writers, which translator Barbara Heldt highlights in a critical introduction. Among the greatest works of literature by a Russian woman writer, A Double Life is worthy of a central place in the Russian canon.

Daniel Greene traces the emergence of the idea of cultural pluralism to the lived experiences of a group of Jewish college students and public intellectuals, including the philosopher Horace M. Kallen. These young Jews faced particular challenges as they sought to integrate themselves into the American academy and literary world of the early 20th century. At Harvard University, they founded an influential student organization known as the Menorah Association in 1906 and later the Menorah Journal, which became a leading voice of Jewish public opinion in the 1920s. In response to the idea that the American melting pot would erase all cultural differences, the Menorah Association advocated a pluralist America that would accommodate a thriving Jewish culture while bringing Jewishness into mainstream American life.