An illustrated tour of the structures and patterns we call "math" The only numbers in this book are the page numbers. Math Without Numbers is a vivid, conversational, and wholly original guide to the three main branches of abstract math—topology, analysis, and algebra—which turn out to be surprisingly easy to grasp. This book upends the conventional approach to math, inviting you to think creatively about shape and dimension, the infinite and infinitesimal, symmetries, proofs, and how these concepts all fit together. What awaits readers is a freewheeling tour of the inimitable joys and unsolved mysteries of this curiously powerful subject. Like the classic math allegory Flatland, first published over a century ago, or Douglas Hofstadter's Godel, Escher, Bach forty years ago, there has never been a math book quite like Math Without Numbers. So many popularizations of math have dwelt on numbers like pi or zero or infinity. This book goes well beyond to questions such as: How many shapes are there? Is anything bigger than infinity? And is math even true? Milo Beckman shows why math is mostly just pattern recognition and how it keeps on surprising us with unexpected, useful connections to the real world. The ambitions of this book take a special kind of author. An inventive, original thinker pursuing his calling with jubilant passion. A prodigy. Milo Beckman completed the graduate-level course sequence in mathematics at age sixteen, when he was a sophomore at Harvard; while writing this book, he was studying the philosophical foundations of physics at Columbia under Brian Greene, among others.
An illustrated tour of the structures and patterns we call "math" The only numbers in this book are the page numbers. Math Without Numbers is a vivid, conversational, and wholly original guide to the three main branches of abstract math—topology, analysis, and algebra—which turn out to be surprisingly easy to grasp. This book upends the conventional approach to math, inviting you to think creatively about shape and dimension, the infinite and infinitesimal, symmetries, proofs, and how these concepts all fit together. What awaits readers is a freewheeling tour of the inimitable joys and unsolved mysteries of this curiously powerful subject. Like the classic math allegory Flatland, first published over a century ago, or Douglas Hofstadter's Godel, Escher, Bach forty years ago, there has never been a math book quite like Math Without Numbers. So many popularizations of math have dwelt on numbers like pi or zero or infinity. This book goes well beyond to questions such as: How many shapes are there? Is anything bigger than infinity? And is math even true? Milo Beckman shows why math is mostly just pattern recognition and how it keeps on surprising us with unexpected, useful connections to the real world. The ambitions of this book take a special kind of author. An inventive, original thinker pursuing his calling with jubilant passion. A prodigy. Milo Beckman completed the graduate-level course sequence in mathematics at age sixteen, when he was a sophomore at Harvard; while writing this book, he was studying the philosophical foundations of physics at Columbia under Brian Greene, among others.
Biotechnology and Biopharmaceuticals: Transforming Proteins and Genes into Drugs defines biotechnology from the perspective of pharmaceuticals. The first section focuses on the process of transforming a biologic macromolecule into a therapeutic agent, while the second section provides a brief overview of each class of macromolecule with respect to physiological role and clinical application. Additional detail is also provided in the second section for each FDA approved, recombinantly derived biopharmaceutical for each category of macromolecule. The final section looks to the future and the new advances that will enhance our ability to develop new macromolecules into effective biopharmaceuticals. This last section discusses various drug delivery strategies while also describing gene and cell therapy strategies.
This comprehensive publication draws together the important aspects of carcinogen-cell interaction. This interesting work describes the regulation of normal cell proliferation, cellular responses to carcinogen damage, the biologic consequences of cellular DNA modification, the structural and genomic changes resulting from carcinogen insult, and the possible involvement of such changes in the conversion of normal human fibroblasts to malignant cells. It presents current reviews with up-to-date literature references and provides critical information from leading investigators that is essential in understanding the biology of human cell transformation. This volume is especially useful to advanced students in genetic toxicology, molecular biologists, and all who are interested in the molecular and macromolecular changes in human cells leading to neoplasia.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.