Schools and universities educate (mostly young) people, to equip them to deal with the future as it unfolds from the present. The question - whether these schools and universities are fit for that purpose - has always been relevant, even in slow-paced times of relative stability, where the future seems predictable as a simple extension of the past.Now that the future is not predictable anymore. Slow-paced times have gone. The relative stability in which universities developed and educated successive generations is gone. The question whether universities are fit for purpose is now more relevant than ever.In this book, ten leading thinkers and eighteen students from different continents, countries and cultures present their views on futures of universities and whether present-day universities are fit for purpose. It is an exploration, meant to inform, inspire and crystallize discussions.

Today, law enforcement requires actionable and real-time intelligence; 24 hours a day, seven days a week to help respond to cases efficiently. When evidence is lacking in a case, law enforcement officers are often times left to rely on eyewitness descriptions. In order to quickly disseminate facial composites to news outlets and social media, law enforcement needs to rely on every tool available; including traditional forensic artists and advanced facial composite software. Creating Digital Faces for Law Enforcement provides the proper foundation for obtaining key information needed to create effective facial composites. There are two main methods to create a facial composite, first through traditional forensic art techniques and second by using commercially developed facial composite software. Traditional forensic art has advanced from pen and paper to more enhanced digital tools. This text reviews the development of digital tools used by the forensic artist describing each tool in detail. Creating Digital Faces for Law Enforcement is the first text of its kind to address the creation of digital sketches for forensic artists and software-driven sketches for non-artist/technicians.

This is a set of lecture notes that developed out of courses on the lambda calculus that the author taught at the University of Ottawa in 2001 and at Dalhousie University in 2007 and 2013. Topics covered in these notes include the untyped lambda calculus, the Church-Rosser theorem, combinatory algebras, the simply-typed lambda calculus, the Curry-Howard isomorphism, weak and strong normalization, polymorphism, type inference, denotational semantics, complete partial orders, and the language PCF.

Essentials of Medicolegal Death Investigation uses a unique approach by combining medical issues, injury patterns, and investigative procedures to provide the reader with the basic fundamentals for a death investigation. The text introduces the reader to death investigation, common causes of death, and very specific types of death, including blunt-force injuries, gunshot wounds, and toxicology deaths. Each section includes case studies with written and visual descriptions. Written by a well-known and experienced medicolegal death investigator, the book fills a void in medicolegal literature for both students and professionals alike.

For a physicist, "noise" is not just about sounds, but refers to any random physical process that blurs measurements, and in so doing stands in the way of scientific knowledge. This book deals with the most common types of noise, their properties, and some of their unexpected virtues. The text explains the most useful mathematical concepts related to noise. Finally, the book aims at making this subject more widely known and to stimulate the interest for its study in young physicists.

Forensic Science Reform: Protecting the Innocent is written for the nonscientist to help make complicated scientific information clear and concise enough for attorneys and judges to master. This volume covers physical forensic science, namely arson, shaken baby syndrome, non-accidental trauma, bite marks, DNA, ballistics, comparative bullet lead analysis, fingerprint analysis, and hair and fiber analysis, and contains valuable contributions from leading experts in the field of forensic science.

The Outside the Research Lab series is a testament to the fact that the physics taught to high school and university students IS used in the real world. This book explores the physics and technology inherent to a selection of sports which have caught the author's attention and fascination over the years. Outside the Research Lab, Volume 3 is a path to discovering how less commonly watched sports use physics to optimize performance, diagnose injuries, and increase access to more competitors. It covers Olympic and Paralympic fencing, show jumping horses, and arguably the most brutal of motorsports - drag racing. Stunning images throughout the book and clear, understandable writing are supplemented by offset detail boxes which take the physics concepts to higher levels. Outside the Research Lab, Volume 3 is both for the general interest reader and students in STEM. Lecturers in university physics, materials science, engineering and other sciences will find this an excellent basis for teaching undergraduate students the range of applications for the physics they are learning. There is a vast range of different areas that require expertise in physics...this third volume of Outside the Research Lab shows a few with great detail provided by professionals doing the work.

In this eye-opening book, author Lloyd J. Dumas argues that our capacity for developing ever more powerful technologies and the unavoidable fallibility of both machine and man will lead us towards a disaster of an unprecedented scale. Most of us assume that those in charge can always find a way to control any technology mankind creates, no matter how powerful. But in a world of imperfect human beings who are prone to error, emotion, and sometimes to malevolent behavior, this could be an arrogant—and disastrous—assumption. This book is filled with compelling, factual stories that illustrate how easy it is for situations to go terribly wrong, despite our best efforts to prevent any issue. The author is not advocating an anti-technology "return to nature," nor intending to highlight the marvels of our high-tech world. Instead, the objective is to reveal the potential for disaster that surrounds us in our modern world, elucidate how we arrived at this predicament, explain the nature and ubiquity of human fallibility, expose why proposed "solutions" to these Achilles heels cannot work, and suggest alternatives that could thwart human-induced technological disasters.

Compact Heat Exchangers: Selection, Design, and Operation, Second Edition, is fully revised to present the most recent and fundamental ideas and industrial concepts in compact heat exchanger technology. This complete reference compiles all aspects of theory, design rules, operational issues, and the most recent developments and technological advancements in compact heat exchangers. New to this edition is the inclusion of micro, sintered, and porous passage description and data, electronic cooling, and an introduction to convective heat transfer fundamentals. New revised content provides up-to-date coverage of industrially available exchangers, recent fouling theories, and reactor types, with summaries of off-design performance and system effects and installations issues in, for example, automobiles and aircraft. Hesselgreaves covers previously neglected approaches, such as the Second Law (of Thermodynamics), pioneered by Bejan and co-workers. The justification for this is that there is increasing interest in life-cycle and sustainable approaches to industrial activity as a whole, often involving exergy (Second Law) analysis. Heat exchangers, being fundamental components of energy and process systems, are both savers and spenders of energy, according to interpretation.

The arena of sport is filled with marvelous performances and feats that, at times, seem almost beyond belief. As curious onlookers, we often wonder whether or not athletes will reach certain peaks and what determines their limits of athletic performance. Science, with its emphasis on theoretical development and experimental results, is uniquely equipped to answer these kinds of questions. Over the past two decades, I have been asked innumerable questions related to how science can provide these kinds of insights. Science in the Arena is written as an outgrowth of those interactions with the primary goal of communicating useful and understandable scientific explanations of athletic performance.