This book is essential for sophomore-level meteorology students, advanced researchers in atmospheric science, and professionals such as meteorologists, weather forecasters, and climate scientists. It is also beneficial for environmental consultants, aviation professionals, hydrologists, oceanographers, energy sector experts, and emergency management officials, making it a versatile resource in navigating the complexities of atmospheric science.
Table of Contents
1. Introduction2. Weather Instrumentation and Observations
3. Analyzing Weather Observations
4. Surface Fronts
5. Atmospheric Forces I Fundamental Forces
6. Atmospheric Forces II Inertial Forces
7. Balance in Synoptic-Scale Flow
8. Upper-Tropospheric Jet Streams
9. Troughs and Ridges
10. Lower-Tropospheric Processes
11. Midlatitude Cyclones
Authors
Gabriel Williams Associate Professor, Atmospheric Physics, College of Charleston, USA.Dr. Gabriel J. Williams, Jr. is an associate professor of atmospheric physics at The Citadel: Military College of South Carolina. He received his Ph.D. in Atmospheric Sciences from Colorado State University, a M.S. in Physics from the University of Texas - Rio Grande Valley (formerly known as University of Texas - Brownsville), and B.S. in Mathematics and Physics from Morehouse College.
Dr. Williams's research specialty is in geophysical fluid dynamics where his research focuses on the dynamics of rotating convection systems and geophysical vortices. As an atmospheric physicist, he examines these planetary phenomena using tools that are traditional to classical physics (such as thermodynamics, electromagnetism, and fluid mechanics), and his research has broad applications in atmospheric science and planetary sciences.
