How universities in the US and South Korea compete for global student markets—and how university financials shape students’ lives. The popular image of the international student in the American imagination is one of affluence, access, and privilege, but is that image accurate? In this provocative book, higher education scholar Stephanie Kim challenges this view, arguing that universities—not the students—allow students their international mobility. Focusing on universities in the US and South Korea that aggressively grew their student pools in the aftermath of the Great Recession, Kim shows the lengths universities will go to expand enrollments as they draw from the same pool of top South Korean students. Kim closely follows several students attending a university in Berkeley and a university in Seoul. They have chosen different paths to study abroad or learn at home, but all are seeking a transformative educational experience. To show how student mobility depends on institutional structures, Kim demonstrates how the universities themselves compel students’ choices to pursue higher learning at one institution or another. She also profiles the people who help ensure the global student supply chain runs smoothly, from education agents in South Korea to community college recruiters in California. Using ethnographic research gathered over a ten-year period in which international admissions were impacted by the Great Recession, changes in US presidential administrations, and the COVID-19 pandemic, Constructing Student Mobility provides crucial insights into the purpose, effects, and future of student recruitment across the Pacific.
For its lessons on the possibilities of collaboration between organized labor and immigrant workers, Organized Labor and Civil Society for Multiculturalism: A Solidarity Success Story from South Korea is of keen interest to practitioners worldwide working within projects dedicated to promoting labor solidarity and multiculturalism.
Digital holography is an emerging field of new paradigm in general imaging applications. The book presents an introduction to the theoretical and numerical principles and reviews the research and development activities in digital holography, with emphasis on the microscopy techniques and applications. Topics covered include the general theory of diffraction and holography formations, and practical instrumentation and experimentation of digital holography. Various numerical techniques are described that give rise to the unique and versatile capabilities of digital holography. Representative special techniques and applications of digital holography are discussed. The book is intended for researchers interested in developing new techniques and exploring new applications of digital holography.
This book provides practical applications for nutrition information. Several different aspects of nutrition are included in this book, such as nutrition labeling and anthropometric measurements.
The Birth of Language tackles one of the most difficult topics known to mankind, the origin of language. Kim shares his experiences of learning English as a second language after moving to the United States as a teenager. He then discusses Noam Chomsky's theories on language. Through a groundbreaking idea, Kim gives readers a demonstration of a method for potentially unifying all human languages, giving substantial support to Chomsky's theory of universal grammar (UG). Written for the general public and young readers, The Birth of Language is a must-read for people looking for the next big intellectual discovery.
A comprehensive guide to the mysteries of the I Ching. Originally discovered around 3,000 BCE, the I Ching is a collection of symbols that explain how patterns in the universe change and shift. These sixty-four symbols contain within them one of the most powerful keys to understanding the world around us. The Secrets of the I Ching is the definitive guide to understanding the ancient mysteries and foundations of the I Ching. Authors Dr. David Lee and Joseph K. Kim guide the reader from the very beginning of Eastern thought, the concepts of Tao and Tai Chi, through the theory of Yin-Yang, Trinity, the Five Elements, and other critical concepts that will unlock the full meaning of the I Ching. Instead of simply re-interpreting the myriad of meanings ascribed to the I Ching, they focus on the symbols themselves, offering a new way of understanding its unique power. Filled with over three hundred images and backed by in-depth research and study, The Secrets of the I Ching is the ultimate guide to the I Ching and essential reading for anyone interested in exploring the power of this ancient source of wisdom and knowledge.
Macroautophagy is mainly considered to be a mechanism for the bulk degradation of the cytoplasm in times of nutrient depletion. However, growing evidence suggests that macroautophagy is more substrate-specific than originally considered. Numerous cytosolic components are selectively degraded by macroautophagy, including aggresomes, damaged mitochondria, peroxisomes, ribosomes, midbodies, and bacteria and viruses. Although the specific molecular components may differ for each substrate, the general mechanism of selective macroautophagy involves the targeted ubiquitination of the substrate and the recruitment of autophagy receptors. Autophagy receptors are proteins that act as an interface between the substrate and the nascent autophagosome, the double-membrane structure that sequesters the cytoplasm for delivery to lysosomes for degradation. In this chapter we will describe the general mechanism of selective autophagy in the mammalian system, focusing on the most described autophagy receptor, p62. The emerging data suggest that selective autophagy is not only necessary for cell survival during nutrient starvation, but also plays a critical role in cell development, cellular responses to oxidative stress, and innate immunity.
FOUR STARS from Doody's Star Ratings™ Internationally renowned authorities in the field of hybrid imaging contribute firsthand expertise on the practical application of single-photon emission computed tomography (SPECT) and SPECT/CT. By combining clear anatomic markers from CT with functional knowledge from SPECT, SPECT/CT provides added value for patient evaluation and is becoming increasingly prevalent in routine clinical practice. Indeed, hybrid imaging is touted by many as a game changer in nuclear medicine. The first two chapters of this book provide a foundation for understanding SPECT and SPECT/CT technological principles, including the associated radiopharmaceuticals. The remaining chapters detail the utility of SPECT and SPECT/CT in clinical practice including neuroscience and pediatrics, as well as specific pathologies. The book concludes with in-depth discussion of select case studies. Key Features Efficacious use of SPECT and SPECT/CT for primary body systems, including the central nervous, cardiovascular, respiratory, and skeletal systems Value for the assessment of neoplastic disease, infection/inflammation, thyroid and parathyroid gland disorders Fourteen high-quality videos delineate specific techniques and clinical applications Meticulous, four-color graphics clearly elucidate key concepts Illustrative case studies offer educational teaching pearls Together, the concise, evidence-based text and wealth of SPECT/CT images deliver a solid knowledge base, enabling practitioners to learn the effective use of this technology. This must-have book is certain to be an invaluable resource for a diverse spectrum of practicing and trainee clinicians in fields such as radiology, nuclear medicine, and radiation oncology.
Two materials (one being metal) under slight relative motion in a liquid medium are subjected to fretting corrosion. This chapter is dedicated to studying fretting corrosion of implants. After describing the most significant implants subjected to fretting, fretting corrosion is defined. Fretting corrosion is a particular degradation mechanism; it highlights the key role of passive film, crevice corrosion, etc. For demonstrating the electrochemical effect of the fretting corrosion of metal, some investigations are presented at free corrosion potential and at applied potential to measure the specific current density. Moreover, the role of proteins is investigated because they constitute the biological environment and thus play a significant role in fretting corrosion processes. Finally, results from atomic force microscopy (AFM) show the particular debris, size about 100nm. The problem of debris influence is discussed.
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