For baseball's millions of fans, this ultimate reference to the national pastime features a listing of more than 800 memorable people, places, dates, events, terms, records, and statistics. From the game's origins in the 1840s to the present day, The Book of Baseball Literacy presents complete details on the great sport in one lively, fascinating treasury.
Blending scientific fact and sports trivia, Robert Adair examines what a baseball or player in motion does-and why. How fast can a batted ball go? What effect do stitch patterns have on wind resistance? How far does a curve ball break? Who reaches first base faster after a bunt, a right- or left-handed batter? The answers are often surprising—and always illuminating. This newly revised third edition considers recent developments in the science of sport such as the neurophysiology of batting, bat vibration, and the character of the "sweet spot." Faster pitchers, longer hitters, and enclosed stadiums also get a good, hard scientific look to determine their effects on the game. Filled with anecdotes about famous players and incidents, The Physics of Baseball provides fans with fascinating insights into America's favorite pastime.
"Baseball is a sport with its own lingo and jargon, a colorful patois that developed over decades and millions of games. Jesse Goldberg-Strassler, storyteller, commentator, voice - delves into the language of the national pastime: from Vin Scully's philosophy on no-hitters to Red Barber's classic turns of phrase to a definitive listing of broadcasters' trademark home run call." -- Back cover.
A great overview for novices and a precise reference guide for devoted fans! Admit it: Even if you’re a die-hard fan of our national pastime, sometimes an umpire’s call can be baffling. And for newer fans, Major League Baseball’s nuanced rules—developed and revised over many decades—can be downright perplexing. Now updated throughout with the latest changes, including specifications about the universal designated hitter and limits on defensive shifts, the Baseball Field Guide lays out every rule in plain English. You’ll learn to answer all these questions and more: Do you know the twenty-two ways a pitcher can be charged with a balk? Can you list all seven ways a batter can safely get to first base? Obstruction or interference—who’s at fault when things get rough? What are the rules that apply before and after a game? What happens when spectators are the ones who misbehave? How well do you understand the infamous Infield Fly Rule (and why does it exist)? This is the clearest explanation anywhere of the rules of baseball. Designed for quick and intuitive searches, this entertaining reference will help you understand every aspect of the game and add to your enjoyment of the sport.
The definitive work on the language of baseball—one of the “Five Best Baseball Books” (Wall Street Journal). Hailed as “a staggering piece of scholarship” (Wall Street Journal) and “an indispensable guide to the language of baseball” (San Diego Union-Tribune), The Dickson Baseball Dictionary has become an invaluable resource for those who love the game. Drawing on dozens of nineteenth- and early twentieth-century periodicals, as well as contemporary sources, Dickson’s brilliant, illuminating definitions trace the earliest appearances of terms both well known and obscure. This edition includes more than 10,000 terms with 18,000 individual entries, and more than 250 photos. This “impressively comprehensive” (The Nation) book will delight everyone from the youngest fan to the hard-core aficionado.
Analyzing Baseball Data with R Second Edition introduces R to sabermetricians, baseball enthusiasts, and students interested in exploring the richness of baseball data. It equips you with the necessary skills and software tools to perform all the analysis steps, from importing the data to transforming them into an appropriate format to visualizing the data via graphs to performing a statistical analysis. The authors first present an overview of publicly available baseball datasets and a gentle introduction to the type of data structures and exploratory and data management capabilities of R. They also cover the ggplot2 graphics functions and employ a tidyverse-friendly workflow throughout. Much of the book illustrates the use of R through popular sabermetrics topics, including the Pythagorean formula, runs expectancy, catcher framing, career trajectories, simulation of games and seasons, patterns of streaky behavior of players, and launch angles and exit velocities. All the datasets and R code used in the text are available online. New to the second edition are a systematic adoption of the tidyverse and incorporation of Statcast player tracking data (made available by Baseball Savant). All code from the first edition has been revised according to the principles of the tidyverse. Tidyverse packages, including dplyr, ggplot2, tidyr, purrr, and broom are emphasized throughout the book. Two entirely new chapters are made possible by the availability of Statcast data: one explores the notion of catcher framing ability, and the other uses launch angle and exit velocity to estimate the probability of a home run. Through the book’s various examples, you will learn about modern sabermetrics and how to conduct your own baseball analyses. Max Marchi is a Baseball Analytics Analyst for the Cleveland Indians. He was a regular contributor to The Hardball Times and Baseball Prospectus websites and previously consulted for other MLB clubs. Jim Albert is a Distinguished University Professor of statistics at Bowling Green State University. He has authored or coauthored several books including Curve Ball and Visualizing Baseball and was the editor of the Journal of Quantitative Analysis of Sports. Ben Baumer is an assistant professor of statistical & data sciences at Smith College. Previously a statistical analyst for the New York Mets, he is a co-author of The Sabermetric Revolution and Modern Data Science with R.
This book describes the physics of baseball and softball, assuming that the reader has a basic background in both physics and mathematics. The physics will be explained in a conversational style, with words and illustrations, so that the explanations make sense. The book provides an excellent opportunity to explain physics at a relatively simple level, even though the primary objective is to explain the many subtle features concerning the physics of baseball. For those readers who already know quite a bit of physics and who will be comfortable with mathematical equations, additional material of this nature will be provided in appendices. The latest research findings and statistical data have been incorporated by the author. The book also contains many simple experiments that the reader can perform to convince themselves that the effects described do indeed exist.
Capturing such quintessentially American pastimes as baseball and road trips in one fascinating work, this updated and expanded guide chronicles more than 500 important events in baseball history with detailed descriptions of the event and information on each location. Packed with historical data, trivia, photographs, and baseball lore, entries include the birthplaces of baseball legends, ballparks, museums and halls of fame, final resting places, and many locations that are no longer standing. From out-of-the-way spots to the most popular stadiums in the U.S. and Canada, no site is too small or insignificant to be included in this comprehensive directory. Entries include the Buckminster Hotel in Boston, where the Black Sox planned their fix of the 1919 World Series; the original little league field and museum in Williamsport, Pennsylvania; the birthplace of Jackie Robinson; the place where Mickey Mantle was discovered by a scout from the New York Yankees; and the site of the original Wrigley Field, erected in Los Angeles in 1925.