Now in its third, updated edition, Understanding Gliding has become one of gliding's classic works. Piggott demonstrates that the basic priciples are not in fact complex, and he answers many of the common questions which are asked by new pilots.
This manual is intended for budding and improving glider pilots and as a resource for gliding instructors. It views the whole process from the perspective of a beginner tackling all the difficulties and concerns experienced by them head on, including the fundamentals of gliding, how to learn them and how they should be taught. It includes a new chapter on soaring.
This book explains how to recognize good and hazardous flying weather by looking at the causes and effects of atmospheric phenomena. These include air masses, high and low pressure areas, cloud formations, fronts, thermals, inversions and anti-cyclones. For those preparing for the Bronze "C" award or for one of the Private Pilot's Licence examinations there is a useful appendix with revision questions and answers. Derek Piggott is the author of a number of well-known books on gliding and is a gliding expert."
Gliding is for everyone who has ever dreamt of riding the air currents with the view stretching to the horizon, and with barely a sound to disturb the moment. Written by an experienced instructor, this book guides you through the first steps to realising that dream, and goes on to explore the many opportunities offered by this compelling and existing sport.
DIATOM GLIDING MOTILITY Moving photosynthetic organisms are still a great mystery for biologists and this book summarizes what is known and reports the current understanding and modeling of those complex processes. The book covers a broad range of work describing our current state of understanding on the topic, including: historic knowledge and misconceptions of motility; evolution of diatom motility; diatom ecology & physiology; cell biology and biochemistry of diatom motility, anatomy of motile diatoms; observations of diatom motile behavior; diatom competitive ability, unique forms of diatom motility as found in the genus Eunotia; and models of motility. This is the first book attempting to gather such information surrounding diatom motility into one volume focusing on this single topic. Readers will be able to gather both the current state of understanding on the potential mechanisms and ecological regulators of motility, as well as possible models and approaches used to help determine how diatoms accomplish such varied behaviors as diurnal movements, accumulation into areas of light, niche partitioning to increase species success. Given the fact that diatoms remain one of the most ecologically crucial cells in aquatic ecosystems, we hope that this volume will act as a springboard towards future research into diatom motility and even better resolution of some of the issues in motility. Audience Diatomists, phycologists, aquatic ecologists, cellular physiologists, environmental biologists, biophysicists, diatom nanotechnologists, algal ecologists, taxonomists.
*Junior Library Guild Selection 2017* Only a few dozen vertebrate animals have evolved true gliding abilities, but they include an astonishing variety of mammals, reptiles, and amphibians. North America’s flying squirrels and Australia’s sugar gliders notwithstanding, the vast majority of them live in rainforests. Illustrated with arresting photographs, Catching Air takes us around the world to meet these animals, learn why so many gliders live in Southeast Asia, and find out why this gravity-defying ability has evolved in Draco lizards, snakes, and frogs as well as mammals. Why do gliders stop short of flying, how did bats make that final leap, and how did Homo sapiens bypass evolution to glide via wingsuits and hang gliders—or is that evolution in another guise? Fountas & Pinnell Level R