This easy-to-follow textbook teaches Java programming from first principles, as well as covering design and testing methodologies. The text is divided into two parts. Each part supports a one-semester module, the first part addressing fundamental programming concepts, and the second part building on this foundation, teaching the skills required to develop more advanced applications. This fully updated and greatly enhanced fourth edition covers the key developments introduced in Java 8, including material on JavaFX, lambda expressions and the Stream API. Topics and features: begins by introducing fundamental programming concepts such as declaration of variables, control structures, methods and arrays; goes on to cover the fundamental object-oriented concepts of classes and objects, inheritance and polymorphism; uses JavaFX throughout for constructing event-driven graphical interfaces; includes advanced topics such as interfaces and lambda expressions, generics, collection classes and exceptions; explains file-handling techniques, packages, multi-threaded programs, socket programming, remote database access and processing collections using streams; includes self-test questions and programming exercises at the end of each chapter, as well as two illuminating case studies; provides additional resources at its associated website (simply go to springer.com and search for "Java in Two Semesters"), including a guide on how to install and use the NetBeansTM Java IDE. Offering a gentle introduction to the field, assuming no prior knowledge of the subject, Java in Two Semesters is the ideal companion to undergraduate modules in software development or programming.
Meteor is a full stack application platform that makes it easy to build powerful, real time Web apps quickly. Introducing Meteor guides you through building top-quality Web apps in a fraction of the time using an application platform built for the modern web. This book takes you from installing the development environment all the way through deploying a live app, and everything in between. Introducing Meteor covers how to build a prototype app in days instead of weeks; how to take advantage of reactive templates; leverage the hundreds of Smart Packages available; and employ best practices and avoid common errors made by beginners. Meteor gives you the tools you need to build better apps faster. Web apps have come a long way since the 1990s, but they still require a lot of time, specialized knowledge and complex setups. Introducing Meteor shows you a better way.
This textbook helps you to prepare for both your next exams and practical courses by combining theory with virtual lab simulations. With the “Labster Virtual Lab Experiments” book series you have the unique opportunity to apply your newly acquired knowledge in an interactive learning game that simulates common laboratory experiments. Try out different techniques and work with machines that you otherwise wouldn’t have access to. In this volume on “Basic Biology” you will learn how to work in a biological laboratory and the fundamental theoretical concepts of the following topics: Lab Safety Mitosis Meiosis Cellular Respiration Protein Synthesis In each chapter, you will be introduced to the basic knowledge as well as one virtual lab simulation with a true-to-life challenge. Following a theory section, you will be able to play the corresponding simulation. Each simulation includes quiz questions to reinforce your understanding of the covered topics. 3D animations will show you molecular processes not otherwise visible to the human eye. If you have purchased a printed copy of this book, you get free access to five simulations for the duration of six months. If you’re using the e-book version, you can sign up and buy access to the simulations at www.labster.com/springer. If you like this book, try out other topics in this series, including “Basic Genetcis”, “Basic Biochemistry”, and “Genetics of Human Diseases”.
The aim of An Operational Approach to Policy Analysis: The Craft is to cut through the ambiguity and contradictions inherent in policy analysis by means of an operational-prescriptive approach. Its main objective is to encapsulate the essential concepts, methods and tools of policy analysis and to provide an insight into factors acting within and around the policy analysis process. Based on the collaborative research of Iris Geva-May and Aaron Wildavsky, the first full draft of An Operational Approach to Policy Analysis: The Craft was completed just before Dr Wildavsky's untimely death. Since that time, Dr Geva-May has worked to thoroughly revise and update the manuscript. An Operational Approach to Policy Analysis: The Craft can be used by researchers in political science, or as a textbook for any course in policy analysis, policy planning and evaluation. It will serve as a valuable source for students of political science, public policy, administration and management, as well as for policy analysts, researchers and executives in both the US and abroad.
This thesis presents the first measurements of jets in relativistic heavy ion collisions as reported by the ATLAS Collaboration. These include the first direct observation of jet quenching through the observation of a centrality-dependent dijet asymmetry. Also, a series of jet suppression measurements are presented, which provide quantitative constraints on theoretical models of jet quenching. These results follow a detailed introduction to heavy ion physics with emphasis on the phenomenon of jet quenching and a comprehensive description of the ATLAS detector and its capabilities with regard to performing these measurements.
Intestinal neoplasia comprises a large part of a surgical pathologist’s workload. Pathologists play a key role not only in the classification of malignancies but also in assisting screening programs, identifying incidental neoplasms, and guiding treatment by providing essential prognostic features for individual entities. A large variety of neoplasms affect the intestines, and there is ongoing discovery of new entities and prognostic features for known diseases. Pathologists and trainees should have a solid understanding of key morphologic features, pitfalls, and differential diagnoses. Importantly, pathologists should recognize and communicate features that help their clinical colleagues in making treatment decisions, with the ultimate goal of benefiting the patient first and foremost. The first volume of the Atlas of Intestinal Pathology provides a comprehensive yet concise, primarily visual review of intestinal neoplasms. It also serves as a useful resource primarily for pathologists and trainees in pathology by providing a concise yet comprehensive summary of morphology of intestinal neoplasia. Clinical practitioners and trainees also benefit from an understanding of the pathologic correlates to the diseases they manage.
What did SpongeBob say to the Krabby Patty? 'Pleased to eat you!' Why did Patrick bring a shovel to the Krusty Krab? Because SpongeBob told him to dig in. Laugh out loud, landlubbers! The Krusty Krab is serving up heaped helpings of jokes that are calorie-free, yet always satisfying! One thing's for sure-you'll be back for more!
This state of the art monograph presents a unique introduction to thinking about cuteness and its incorporation into modern, especially computer-based, products and services. Cuteness is defined and explored in relation to user-centered design concepts and methods, in addition to considering the history of cuteness and cuteness in other cultures, especially in relation to eastern Asia. The authors provide detailed analyses and histories of cuteness in Japan and in China, the rise of Kawaii and Moe cultural artifacts, and their relation to social, psychological, and design issues. They also attempt an initial taxonomy of cuteness. Finally, detailed interviews with leading designers of cute products and services, such as Hello Kitty, provide an understanding of the philosophy and decision-making process of designers of cuteness. Cuteness Engineering: Designing Adorable Products and Services will be of interest and use to a wide range of professionals, researchers, academics, and students who are interested in exploring the world of cuteness in fresh new ways and gaining insights useful for their work and studies.
Written with graduate and advanced undergraduate students in mind, this textbook introduces computational logic from the foundations of first-order logic to state-of-the-art decision procedures for arithmetic, data structures, and combination theories. The textbook also presents a logical approach to engineering correct software. Verification exercises are given to develop the reader's facility in specifying and verifying software using logic. The treatment of verification concludes with an introduction to the static analysis of software, an important component of modern verification systems. The final chapter outlines courses of further study.
The subject matterofsolid state chemistry lies within the spheres ofboth physical and inorganic chemistry. In addition, there is a large overlap with solid state physics and materials engineering. However, solid state chemistry has still to be recognized by the general body ofchemists as a legitimate subfield ofchemistry. The discipline is not even well defined as to content and has many facets that make writing a textbook a formidable task. The early studies carried out in the United States by Roland Ward and his co workers emphasized the synthesisofnew materials and the determination oftheir structure. His work on doped alkaline earth sulfides formed the basis for the development of infrared phosphors and his pioneering studies on oxides were important in understanding the structural features of both the perovskite oxides as well as the magnetoplumbites. In 1945, A. F. Wells published the first edition of Structural Inorganic Chemistry. This work attempts to demonstrate that the synthesis, structure, and properties of solids form an important part of inorganic chemistry. Now, after almost 50 years during which many notable advances have been made in solid state chemistry, it is still evident that the synthesis, structure determination, and properties of solids receive little attention in most treatments of inorganic chemistry. The development of the field since the early studies of Roland Ward (early 1940s) has been rapid.
This work looks at what interventions work in assessing and treating substance-abusing criminal offenders. It covers approaches to treating offenders, including women, juveniles, and those with the dual diagnoses of substance abuse and a mental disorder. From assessment and diagnosis through individual, family, and group interventions and monitoring probationers, this work should be a useful resource for psychologists, psychiatrists, social workers, criminologists, sociologists, correctional officers, and other working in community-based and institutional settings.
This short work is the first draft of a book manuscript by Aaron Swartz written for the series "Synthesis Lectures on the Semantic Web" at the invitation of its editor, James Hendler. Unfortunately, the book wasn't completed before Aaron's death in January 2013. As a tribute, the editor and publisher are publishing the work digitally without cost. From the author's introduction: " . . . we will begin by trying to understand the architecture of the Web -- what it got right and, occasionally, what it got wrong, but most importantly why it is the way it is. We will learn how it allows both users and search engines to co-exist peacefully while supporting everything from photo-sharing to financial transactions. We will continue by considering what it means to build a program on top of the Web -- how to write software that both fairly serves its immediate users as well as the developers who want to build on top of it. Too often, an API is bolted on top of an existing application, as an afterthought or a completely separate piece. But, as we'll see, when a web application is designed properly, APIs naturally grow out of it and require little effort to maintain. Then we'll look into what it means for your application to be not just another tool for people and software to use, but part of the ecology -- a section of the programmable web. This means exposing your data to be queried and copied and integrated, even without explicit permission, into the larger software ecosystem, while protecting users' freedom. Finally, we'll close with a discussion of that much-maligned phrase, 'the Semantic Web,' and try to understand what it would really mean.
This book provides an introduction to energy economics. It shows how to apply general economic theory as well as empirical and advanced econometric methods to explain the drivers of energy markets and their development. Readers learn about the specific properties of energy markets as well as the physical, technological, environmental, and geopolitical particularities of energy sources and products. The book covers all types of energy markets, ranging from liquid fuels, gaseous fuels, and solid fuels to electricity. It also addresses emission allowances, energy efficiency, and nuclear risks. The authors discuss the engineering properties of energy technologies including renewables, the economics of natural resources and environmental protection, market liberalization, and energy trade as well as the experience of the German energy transformation. This book will serve students as a textbook and practitioners as a reference for their understanding of energy markets and their development.
Since the first edition of "Principles of Packaging Development" was published, the packaging industry has undergone many profound changes. These have included the virtual elimination of cellophane and its replacement with oriented polypropylene as a carton overwrap, fluid milk in blow-molded HDPE bottles, PET beverage bottles, cookie bags and cartons lined with polyolefin coextrusions instead of waxed glassine, and bread in reclosable polyolefin and coextruded film bags. New phrases have also worked their way into the lexicon of the practic ing packaging technologist, such as "child resistance" and "tamper evident. " This most popular text on packaging demanded updating. How these phrases and ideas have affected the industry in the 1980s and how they will probably alter its course in the future are treated. New concepts of packaging system planning and forecasting tech niques are intruding into package management, and new chapters will introduce them to the reader. The years have added a certain degree of maturity to the packaging industry. Not only have the original authors broadened their per spectives and changed professional responsibilities, we have also in cluded a third co-author, Dr. Aaron L. Brody, whose experience in the industry, academic background, and erudite insights into the very na ture of packaging have added an unparalled degree of depth to this book. We would like to thank David L.
This manual begins with an introduction to chronic, nonmalignant pain treatment and some of the main pain theories, as well as approaches to pain management . The core of the book delineates the application of Beck's cognitive therapy assessment and intervention strategies with this client population, and offers an easy-to-follow structured approach. The book provides case examples and therapist-patient dialogues to demonstrate cognitive therapy in action and illustrate ways to improve collaborative efforts between practitioners and patients.
Computational Analysis of Terrorist Groups: Lashkar-e-Taiba provides an in-depth look at Web intelligence, and how advanced mathematics and modern computing technology can influence the insights we have on terrorist groups. This book primarily focuses on one famous terrorist group known as Lashkar-e-Taiba (or LeT), and how it operates. After 10 years of counter Al Qaeda operations, LeT is considered by many in the counter-terrorism community to be an even greater threat to the US and world peace than Al Qaeda. Computational Analysis of Terrorist Groups: Lashkar-e-Taiba is the first book that demonstrates how to use modern computational analysis techniques including methods for “big data” analysis. This book presents how to quantify both the environment in which LeT operate, and the actions it took over a 20-year period, and represent it as a relational database table. This table is then mined using sophisticated data mining algorithms in order to gain detailed, mathematical, computational and statistical insights into LeT and its operations. This book also provides a detailed history of Lashkar-e-Taiba based on extensive analysis conducted by using open source information and public statements. Each chapter includes a case study, as well as a slide describing the key results which are available on the authors’ web sites. Computational Analysis of Terrorist Groups: Lashkar-e-Taiba is designed for a professional market composed of government or military workers, researchers and computer scientists working in the web intelligence field. Advanced-level students in computer science will also find this valuable as a reference book.
This open access textbook provides the background needed to correctly use, interpret and understand statistics and statistical data in diverse settings. Part I makes key concepts in statistics readily clear. Parts I and II give an overview of the most common tests (t-test, ANOVA, correlations) and work out their statistical principles. Part III provides insight into meta-statistics (statistics of statistics) and demonstrates why experiments often do not replicate. Finally, the textbook shows how complex statistics can be avoided by using clever experimental design. Both non-scientists and students in Biology, Biomedicine and Engineering will benefit from the book by learning the statistical basis of scientific claims and by discovering ways to evaluate the quality of scientific reports in academic journals and news outlets.
Provides a look into the rags-to-riches life of the famed Hollywood television producer who has been one of the most successful in the field for more than thirty-five years, creating such popular shows as Dynasty, The Love Boat and.
This textbook helps you to prepare for your next exams and practical courses by combining theory with virtual lab simulations. The “Labster Virtual Lab Experiments” series gives you a unique opportunity to apply your newly acquired knowledge in a learning game that simulates exciting laboratory experiments. Try out different techniques and work with machines that you otherwise wouldn’t have access to. In this book, you’ll learn the fundamental concepts of the genetics of human diseases focusing on: Monogenic Disorders - Cytogenetics - Medical Genetics - Viral Gene Therapy In each chapter, you’ll be introduced to one virtual lab simulation and a true-to-life challenge. Following a theory section, you’ll be able to play the relevant simulation that includes quiz questions to reinforce your understanding of the covered topics. 3D animations will show you molecular processes not otherwise visible to the human eye. If you have purchased a printed copy of this book, you get free access to five simulations for the duration of six months. If you’re using the e-book version, you can sign up and buy access to the simulations at www.labster.com/springer. If you like this book, try out other topics in this series, including “Basic Biology”, “Basic Genetics”, and “Basic Biochemistry”.
This monograph is an introduction to optimal control theory for systems governed by vector ordinary differential equations. It is not intended as a state-of-the-art handbook for researchers. We have tried to keep two types of reader in mind: (1) mathematicians, graduate students, and advanced undergraduates in mathematics who want a concise introduction to a field which contains nontrivial interesting applications of mathematics (for example, weak convergence, convexity, and the theory of ordinary differential equations); (2) economists, applied scientists, and engineers who want to understand some of the mathematical foundations. of optimal control theory. In general, we have emphasized motivation and explanation, avoiding the "definition-axiom-theorem-proof" approach. We make use of a large number of examples, especially one simple canonical example which we carry through the entire book. In proving theorems, we often just prove the simplest case, then state the more general results which can be proved. Many of the more difficult topics are discussed in the "Notes" sections at the end of chapters and several major proofs are in the Appendices. We feel that a solid understanding of basic facts is best attained by at first avoiding excessive generality. We have not tried to give an exhaustive list of references, preferring to refer the reader to existing books or papers with extensive bibliographies. References are given by author's name and the year of publication, e.g., Waltman [1974].
This book is a complete guide for students on how to make the most of intensive, experiential research outside a college classroom. Engaging in research as an undergraduate can lead to successful and rewarding careers in science, technology, engineering, mathematics, and medicine (STEMM). Being successful in an undergraduate research experience benefits from the self-awareness and planning, strategies and skills that Success in Navigating your Student Research Experience can help you build and develop. The first part of this book describes strategies and processes for finding, applying, and preparing for an undergraduate research experience that matches your own needs and interests. These strategies are useful for any student, but are particularly helpful for individuals who have been minoritized in STEMM or are the first in their family to attend college. The central part of the book presents the undergraduate research experience as a “three-legged stool” whose legs—research, education, and community—each have unique values in advancing your path in STEMM. The last part of the book illustrates the many options for continuing and expanding your path in research. These range from communicating results to colleagues to moving forward with graduate studies and careers in STEMM, in which you can become a mentor to the next generation of students. This book is the student’s companion to the authors’ book for mentors, “Success in Mentoring your Student Researchers: Moving STEMM Forward.”
To learn to program is to be initiated into an entirely new way of thinking about engineering, mathematics, and the world in general. Computation is integral to all modern engineering disciplines, so the better you are at programming, the better you will be in your chosen field. The author departs radically from the typical presentation by teaching concepts and techniques in a rigorous manner rather than listing how to use libraries and functions. He presents pointers in the very first chapter as part of the development of a computational model that facilitates an ab initio presentation of subjects such as function calls, call-by-reference, arrays, the stack, and the heap. The model also allows students to practice the essential skill of memory manipulation throughout the entire course rather than just at the end. As a result, this textbook goes further than is typical for a one-semester course -- abstract data types and linked lists, for example, are covered in depth. The computational model will also serve students in their adventures with programming beyond the course: instead of falling back on rules, they can think through the model to decide how a new programming concept fits with what they already know. The book is appropriate for undergraduate students of engineering and computer science, and graduate students of other disciplines. It contains many exercises integrated into the main text, and the author has made the source code available online.
This textbook helps you to prepare for both your next exams and practical courses by combining theory with virtual lab simulations. With the “Labster Virtual Lab Experiments” book series you have the unique opportunity to apply your newly acquired knowledge in an interactive learning game that simulates common laboratory experiments. Try out different techniques and work with machines that you otherwise wouldn’t have access to. In this volume on “Basic Genetics” you will learn how to work in a laboratory with genetic background and the fundamental theoretical concepts of the following topics: Mendelian Inheritance Polymerase Chain Reaction Animal Genetics Gene Expression Gene Regulation In each chapter, you will be introduced to the basic knowledge as well as one virtual lab simulation with a true-to-life challenge. Following a theory section, you will be able to play the corresponding simulation. Each simulation includes quiz questions to reinforce your understanding of the covered topics. 3D animations will show you molecular processes not otherwise visible to the human eye. If you have purchased a printed copy of this book, you get free access to five simulations for the duration of six months. If you’re using the e-book version, you can sign up and buy access to the simulations at www.labster.com/springer. If you like this book, try out other topics in this series, including “Basic Biology”, “Basic Biochemistry”, and “Genetics of Human Diseases”. Please note that the simulations included in the book are not virtual reality (VR) but 2D virtual experiments.
This book describes appropriate statistical models that are commonly utilized in neuropsychology. The book discusses such issues as developing normative data for neuropsychological measures, assessing the validity of neuropsychological tests, and quantifying change “over time” through longitudinal analyses. The rationale for and allure of the volume is the fact that there are no publications that dovetail the two subdisciplines of applied statistics and neuropsychology. The overall objective of this book is to provide a pragmatic and concrete source for applying methodological and statistical techniques in research studies whose emphasis includes neuropsychology. Since there are a plethora of technique to arrive at similar answers, each method with its strengths and weaknesses will be delineated. The beauty of the book will be that it will hopefully demystify commonly encountered issues faced with researchers. More specifically, it will provide a “how to do it” approach.
Even though I had been studying reading problems in children for a number of years as a means of understanding cognitive processes, I became deeply committed to the study of developmental dyslexia after my encounter with S. H. , a dyslexic college student. Until then, dyslexia to me remained an interesting phenomenon but somewhat removed from the mainstream of my research interests. The facts that, in spite of his superior IQ, S. H. could read no better than a child in the fifth grade and misspelled even common words such as was and here, however, took me by surprise and made me appreciate the intriguing and challenging nature of developmental dyslexia. This led to a series of studies of college students with reading disability, a group that is relatively unexplored. The general plan of these investigations was to study a small number of disabled readers at any given time, rather intensively. Even though this approach limits the generalizability of the research findings, it lays bare some of the most interesting facts about dyslexia which are obscured in large-scale statistical studies. These studies have now extended well over a decade and are still continuing. As soon as these studies were started, it became obvious that not all reading-disabled college students are alike and that disabled readers could be classified into three broad categories: those with poor decod ing skill, those with poor comprehension ability, and those with a combination of these two deficits.
The hallmark of this book is its conversational format. The conversations are organic: no jargons, no additives such as equations and tables. Each conversation comes in bite-size, taking no more than ten minutes to digest.
An extensive interview with a gentleman who is ready to close the chapter of his life. Learn about his ongoing spiritual path as Aaron Savvy talks about his past, present, and future.
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