Leopold Classic Library is delighted to publish this classic book as part of our extensive collection. As part of our on-going commitment to delivering value to the reader, we have also provided you with a link to a website, where you may download a digital version of this work for free. Many of the books in our collection have been out of print for decades, and therefore have not been accessible to the general public. Whilst the books in this collection have not been hand curated, an aim of our publishing program is to facilitate rapid access to this vast reservoir of literature. As a result of this book being first published many decades ago, it may have occasional imperfections. These imperfections may include poor picture quality, blurred or missing text. While some of these imperfections may have appeared in the original work, others may have resulted from the scanning process that has been applied. However, our view is that this is a significant literary work, which deserves to be brought back into print after many decades. While some publishers have applied optical character recognition (OCR), this approach has its own drawbacks, which include formatting errors, misspelt words, or the presence of inappropriate characters. Our philosophy has been guided by a desire to provide the reader with an experience that is as close as possible to ownership of the original work. We hope that you will enjoy this wonderful classic book, and that the occasional imperfection that it might contain will not detract from the experience.
This book explores the role of surface effects in optical phenomena in nanoscience, from two different perspectives. When systems are reduced in volume, the ratio of surface versus volume increases. At the level of single nanostructures this translates into an enhanced role of interfacial chemistry and thermodynamics. At the level of systems of nanostructures, it translates into larger density on interfaces, which in turn leads to such intriguing collective effects as plasmonics or multiple reflection and refraction phenomena. The book highlights both perspectives presenting sample applications. Without claiming to be exhaustive, the book aims to stimulate readers in this potentially rewarding field.
From Abraham to Zaydee, and from ancient times to modern day, A is for Abraham: A Jewish Family Alphabet encompasses the history of Jewish traditions and customs and how they are practiced today. Following the alphabet, a poem identifies the letter topic while sidebar text provides background information. C could be the challah that my bubbe used to braid, or C could be the chicken soup, when I was sick she made, or chocolate coins on Chanukah we added to our coffers. But I say C should be for Chai "To Life" and all it offers. This joyful celebration of family and heritage includes the meaning behind celebrations such as the Festival of Lights, Passover, and Sukkot; important names and stories from the Old Testament; and how modern-day families continue to celebrate their heritage. Richard Michelson's children's books have received distinctive awards such as a New Yorker Best Book Award and a Jewish Book Council Book of the Month. His titles include Too Young for Yiddish; Across the Alley; and Tuttle's Red Barn (a Publishers Weekly Best Children's Book of 2007). He lives in Northampton, Massachusetts. Ron Mazellan's work has been featured in film and advertising, as well as books and magazines. His work for young readers includes The Harmonica (an IRA Children's Choice Award winner) and The Longest Season (a New York Times top ten bestseller). Ron teaches at Indiana Wesleyan University and lives in Marion, Indiana.