Download Free Scientific Baseball Book in PDF and EPUB Free Download. You can read online Scientific Baseball and write the review.

In The Science of Baseball, sportswriter and injury expert Will Carroll shows how understanding the science behind the Great American Pastime helps fans appreciate its nuances and that it enhances, not detracts from the greatest game ever invented. Carroll, as well as several experts via interviews, covers topics like what makes the ball break, bounce, and fly; how material science and physics work together to make the bat function; how hitters use physics, geometry, and force to connect; sensors and cameras; injuries; and much more. Baseball aficionados and science geeks alike will better appreciate the game--no matter which teams are playing--after reading this comprehensive book!
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.
"Uses graphic novel format to reveal the scientific aspects at play in the sport of baseball"--
This book presents a scientific but easy to understand explanation of pitching power. Illustrated with anecdotes about baseball's greatest power pitchers, it describes how they were able to achieve phenomenal fastball velocity and record-breaking strikeout numbers. How was a 17-year-old rookie named Bob Feller able to strike out Major League batters in record numbers? How do the tendons, ligaments, and muscles of the arm and shoulder work to amplify power for greater pitch velocity? How was minor league pitcher Steve Dalkowski able to throw the most phenomenal fastball ever seen (or heard)? Why do young pitchers with exceptional velocity often issue walks at exceptional rates? Why do good pitchers occasionally pitch badly? Why is exceptional hand speed important? What is it about overhand throwing that causes elbow and shoulder injuries? How can a pitcher achieve greater endurance and durability? What is the most reliable way to increase fastball velocity? This book addresses these and other questions for pitchers, coaches, managers, trainers, and fans.
A succinct history of baseball, newly revised and updated
Baseball is a game of numbers, angles, and physics. Science, technology, engineering, and math come together in the game of baseball—from the design of the stadium to the ways a pitcher throws and a batter swings. As readers discover the science behind this popular sport, colorful photographs show important areas of STEM curricula in action at the ballpark. Informative text, graphic organizers, and sidebars help readers learn that science concepts can be seen all around them, including their next baseball practice or trip to see a Major League Baseball game.
This book presents a scientific but easy to understand explanation of pitching power. Illustrated with anecdotes about baseball's greatest power pitchers, it describes how they were able to achieve phenomenal fastball velocity and record-breaking strikeout numbers. How was a 17-year-old rookie named Bob Feller able to strike out Major League batters in record numbers? How do the tendons, ligaments, and muscles of the arm and shoulder work to amplify power for greater pitch velocity? How was minor league pitcher Steve Dalkowski able to throw the most phenomenal fastball ever seen (or heard)? Why do young pitchers with exceptional velocity often issue walks at exceptional rates? Why do good pitchers occasionally pitch badly? Why is exceptional hand speed important? What is it about overhand throwing that causes elbow and shoulder injuries? How can a pitcher achieve greater endurance and durability? What is the most reliable way to increase fastball velocity? This book addresses these and other questions for pitchers, coaches, managers, trainers, and fans.
This augmented, new edition adds discussion of the bat’s vertical sweetness gradient, eye-hand cross-dominance, models for the swing of a bat, and accuracy of simulations. The book retains its description of dynamic collisions between baseballs, softballs, and bats, and the intricate modeling of these interactions, using only basic math and physical principles. Veteran baseball science author Terry Bahill explains models for the speed and spin of balls and bats and calculations for bat-ball collisions at a level accessible to most students of the science of baseball. Demystifying the most important factors for understanding bat performance—bat weight, moment of inertia, the coefficient of restitution, and characteristics of humans swinging the bats—Dr. Bahill also explains physical aspects of the optimal bat and the sweet spot. Praise for the First Edition “Dr. Bahill’s book is the perfect tool for teaching how to solve some of baseball’s basic science problems. Using only simple Newtonian principles and the conservation laws, Dr. Bahill explains how to model bat-ball collisions. Also, he derives equations governing the flight of the ball, and proceeds to show what factors affect air density and how this density affects the ball’s flight. And as a unique addition to his fine book, he provides advice for selecting the optimal bat—a surprising bonus!” Dave Baldwin, PhD Major League pitcher, 1966-1973, lifetime Major League ERA, 3.08 “If I were the General Manger of a baseball team, I would tell my people to write a ten-page paper describing what this book contains that could improve our performance. I think the book provides the foundation for change.” Bruce Gissing Executive VP-Operations (retired) Boeing Commercial Airplanes “[I] had a chance to read your research, and I fully agree with your findings.” Baseball Legend Ted Williams, in a 1984 letter to the author