Ralph Ely, founder of Alma, selected 10 acres of old forest on the bank of the Pine River in 1853. In this central-Michigan wilderness, he built a log cabin, a log store, and two steam-powered mills--a sawmill and a gristmill. At first, his growing settlement was called Elyton, but within a few years, it was renamed Alma, memorializing a battle in the Crimean War. Alma was energized by the acquisition of millionaire lumberman and entrepreneur Ammi W. Wright, who poured his resources into the town. Wright encouraged the establishment of Alma College in 1886 and the state Masonic home for the elderly in 1911. Wright laid the foundations for Alma's great Republic Truck Company, the largest exclusive maker of trucks in the world by 1920. The discovery of several oil fields prompted the establishment of two oil refineries in Alma in the 1930s and saved the town from the doldrums of the Great Depression. By the 1950s, Alma was a key national manufacturer of house trailers and mobile homes. This photographic panorama reflects the city's economic cycles and its institutions that have given Alma an enviable stability through the years.
Come along with authors Gordon Beld and David McMacken on a trip down memory lane to Alma College, a mid-Michigan school with a fascinating past, rich heritage and impressive influence. Look on as thousands of spectators flock to the campus for the annual Highland festival. Sit in the front row while a yet unknown young performer introduces you to a new song, "Take Me Home, Country Roads." Peek into a voting booth to see the ballot listing two former Alma students who are candidates for the U.S. vice presidency--in the same election. Learn how Alma students reached out to make a difference here at home and around the world..
The Company was organized on June 24, 1913 with $50,000 as the Alma Motor Truck Company. In 1914 it was renamed. It was sold to bondholders in 1923 and to American LaFrance and Foamite Industries of Elmira, NY in 1929. The Company was liquidated in 1957.This book is dedicated in memory of Leon McNeil, a 38 year employee of the company. McNeil managed several departments during his years with the Company.
Ralph Ely, founder of Alma, selected 10 acres of old forest on the bank of the Pine River in 1853. In this central-Michigan wilderness, he built a log cabin, a log store, and two steam-powered mills--a sawmill and a gristmill. At first, his growing settlement was called Elyton, but within a few years, it was renamed Alma, memorializing a battle in the Crimean War. Alma was energized by the acquisition of millionaire lumberman and entrepreneur Ammi W. Wright, who poured his resources into the town. Wright encouraged the establishment of Alma College in 1886 and the state Masonic home for the elderly in 1911. Wright laid the foundations for Alma's great Republic Truck Company, the largest exclusive maker of trucks in the world by 1920. The discovery of several oil fields prompted the establishment of two oil refineries in Alma in the 1930s and saved the town from the doldrums of the Great Depression. By the 1950s, Alma was a key national manufacturer of house trailers and mobile homes. This photographic panorama reflects the city's economic cycles and its institutions that have given Alma an enviable stability through the years.
Come along with authors Gordon Beld and David McMacken on a trip down memory lane to Alma College, a mid-Michigan school with a fascinating past, rich heritage and impressive influence. Look on as thousands of spectators flock to the campus for the annual Highland festival. Sit in the front row while a yet unknown young performer introduces you to a new song, "Take Me Home, Country Roads." Peek into a voting booth to see the ballot listing two former Alma students who are candidates for the U.S. vice presidency--in the same election. Learn how Alma students reached out to make a difference here at home and around the world..
A dark and deep dive into the “Jack the Stripper” murders that “rips open sixties London and leaves her swinging from a lamp-post for all to finally see” (David Peace, author of the Red Riding Quartet). Between 1959 and 1965, eight prostitutes were murdered in West London by a serial killer. The killer’s motive and identity were the subject of endless speculation by the media, who dubbed him “Jack the Stripper.” Links to the Profumo scandal, boxer Freddie Mills and the notorious Kray twins were rumored. By the time the body of the eighth victim was found in February 1965, a massive police operation was underway to catch the killer. The whole country waited to see what would happen next. The police had staked everything on the murderer striking again. But he didn’t . . . David Seabrook, the author of All the Devils Are Here, interviewed surviving police officers, witnesses and associates of the victims and examined the evidence, the rumors and the half-truths. He reconstructs every detail of the investigation and recreates the dark, brutal world of prostitutes and pimps in 1960s West London. He questions the theory that the police’s prime suspect was Jack the Stripper and confronts the disturbing possibility that the killer is still at large. “Seabrook taps away at the darker recesses of the metropolitan mind, relishing the fact that his subject is so heroically unglamorous.”—The Guardian “The genius of this one is how it teases horror from the banal . . . A terrifying portrait of the dark side of Notting Hill and Shepherd’s Bush at the time, with its stew of sex, drugs, immigration, violence, and a residual white working-class.”—The Telegraph
Biochemistry: The Chemical Reactions of Living Cells is a well-integrated, up-to-date reference for basic chemistry and underlying biological phenomena. Biochemistry is a comprehensive account of the chemical basis of life, describing the amazingly complex structures of the compounds that make up cells, the forces that hold them together, and the chemical reactions that allow for recognition, signaling, and movement. This book contains information on the human body, its genome, and the action of muscles, eyes, and the brain. * Thousands of literature references provide introduction to current research as well as historical background * Contains twice the number of chapters of the first edition * Each chapter contains boxes of information on topics of general interest
This unique volume reviews the beautiful architectures and varying mechanical actions of the set of specialized cellular proteins called molecular chaperones, which provide essential kinetic assistance to processes of protein folding and unfolding in the cell. Ranging from multisubunit ring-shaped chaperonin and Hsp100 machines that use their central cavities to bind and compartmentalize action on proteins, to machines that use other topologies of recognition — binding cellular proteins in an archway or at the surface of a 'clamp' or at the surface of a globular assembly — the structures show us the ways and means the cell has devised to assist its major effectors, proteins, to reach and maintain their unique active forms, as well as, when required, to disrupt protein structure in order to remodel or degrade. Each type of chaperone is beautifully illustrated by X-ray and EM structure determinations at near- atomic level resolution and described by a leader in the study of the respective family. The beauty of what Mother Nature has devised to accomplish essential assisting actions for proteins in vivo is fully appreciable.
Molecular biology is one of the most rapidly growing developing and at the same time most exciting disciplines. The key to molecular biology lies in the understanding of nucleic acids - their structure, function, and interaction with proteins. Nucleic Acids in Molecular Biology keeps scientists informed of the explosively growing information and complies with the great interest in this field by offering a continued high standard of review.
Designed for busy clinicians struggling to fit the critical issue of nutrition into their routine patient encounters, Nutrition in Clinical Practice translates the robust evidence base underlying nutrition in health and disease into actionable, evidence-based clinical guidance on a comprehensive array of nutrition topics. Authoritative, thoroughly referenced, and fully updated, the revised 4th edition covers the full scope of nutrition applications in clinical practice, spanning health promotion, risk factor modification, prevention, chronic disease management, and weight control – with a special emphasis on providing concisely summarized action steps within the clinical workflow. Edited by Dr. David L. Katz (a world-renowned expert in nutrition, preventive medicine, and lifestyle medicine) along with Drs. Kofi D. Essel, Rachel S.C. Friedman, Shivam Joshi, Joshua Levitt, and Ming-Chin Yeh, Nutrition in Clinical Practice is a must-have resource for practicing clinicians who want to provide well-informed, compassionate, and effective nutritional counseling to patients.
Discover the nonlinear methods and tools needed to design real-world microwave circuits with this tutorial guide. Balancing theoretical background with practical tools and applications, it covers everything from the basic properties of nonlinear systems such as gain compression, intermodulation and harmonic distortion, to nonlinear circuit analysis and simulation algorithms, and state-of-the-art equivalent circuit and behavioral modeling techniques. Model formulations discussed in detail include time-domain transistor compact models and frequency-domain linear and nonlinear scattering models. Learn how to apply these tools to designing real circuits with the help of a power amplifier design example, which covers all stages from active device model extraction and the selection of bias and terminations, through to performance verification. Realistic examples, illustrative insights and clearly conveyed mathematical formalism make this an essential learning aid for both professionals working in microwave and RF engineering and graduate students looking for a hands-on guide to microwave circuit design.
Robert E. Lee offers both a succinct biography and "the" definitive collection of nearly 350 photographs, important paintings, original engravings, artifacts, and significant documents pertaining to the Confederate general. Although the Civil War years are emphasized, Lee's early years, the Mexican War, and the postwar years in Lexington are amply explored.
Trusted by clinicians for more than 75 years, Conn’s Current Therapy presents today’s evidence-based information along with the personal experience and discernment of expert physicians. The 2024 edition is a helpful resource for a wide range of healthcare providers, including primary care physicians, subspecialists, and allied health professionals, providing current treatment information in a concise yet in-depth format. Nearly 350 topics have been carefully reviewed and updated to bring you state-of-the-art content in even the most rapidly changing areas of medicine. Offers personal approaches from recognized leaders in the field, covering common complaints, acute diseases, and chronic illnesses along with the most current evidence-based clinical management options. Follows a consistent, easy-to-use format throughout, with diagnosis, therapy, drug protocols, and treatment pearls presented in quick-reference boxes and tables for point-of-care answers to common clinical questions. Incorporates electronic links throughout the text that connect the reader to apps and clinical prediction tools that can easily be accessed in practice. Features thoroughly reviewed and updated information from multiple expert authors and editors, who offer a fresh perspective and their unique personal experience and judgment. Provides current drug information thoroughly reviewed by PharmDs. Features nearly 300 images, including algorithms, anatomical illustrations, and photographs, that provide useful information for diagnosis.
Analog CMOS integrated circuits are in widespread use for communications, entertainment, multimedia, biomedical, and many other applications that interface with the physical world. Although analog CMOS design is greatly complicated by the design choices of drain current, channel width, and channel length present for every MOS device in a circuit, these design choices afford significant opportunities for optimizing circuit performance. This book addresses tradeoffs and optimization of device and circuit performance for selections of the drain current, inversion coefficient, and channel length, where channel width is implicitly considered. The inversion coefficient is used as a technology independent measure of MOS inversion that permits design freely in weak, moderate, and strong inversion. This book details the significant performance tradeoffs available in analog CMOS design and guides the designer towards optimum design by describing: An interpretation of MOS modeling for the analog designer, motivated by the EKV MOS model, using tabulated hand expressions and figures that give performance and tradeoffs for the design choices of drain current, inversion coefficient, and channel length; performance includes effective gate-source bias and drain-source saturation voltages, transconductance efficiency, transconductance distortion, normalized drain-source conductance, capacitances, gain and bandwidth measures, thermal and flicker noise, mismatch, and gate and drain leakage current Measured data that validates the inclusion of important small-geometry effects like velocity saturation, vertical-field mobility reduction, drain-induced barrier lowering, and inversion-level increases in gate-referred, flicker noise voltage In-depth treatment of moderate inversion, which offers low bias compliance voltages, high transconductance efficiency, and good immunity to velocity saturation effects for circuits designed in modern, low-voltage processes Fabricated design examples that include operational transconductance amplifiers optimized for various tradeoffs in DC and AC performance, and micropower, low-noise preamplifiers optimized for minimum thermal and flicker noise A design spreadsheet, available at the book web site, that facilitates rapid, optimum design of MOS devices and circuits Tradeoffs and Optimization in Analog CMOS Design is the first book dedicated to this important topic. It will help practicing analog circuit designers and advanced students of electrical engineering build design intuition, rapidly optimize circuit performance during initial design, and minimize trial-and-error circuit simulations.
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