Baseball Pitch Velocity: Find Out How Far the Ball Falls!

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The discussion centers on calculating how far a baseball falls when thrown horizontally at the fastest recorded pitch speed of 100.8 mph, which is 45.06 m/s, over a distance of 18.3 meters. It highlights the principles of projectile motion, noting that the horizontal velocity remains constant while the vertical component is affected by gravity. To solve the problem, one must first determine the time it takes for the ball to reach home plate and then calculate the vertical drop during that time. Additionally, there is a claim about a recent pitch reaching 103 mph, suggesting that recorded speeds may vary. Understanding these concepts is essential for accurately analyzing baseball pitch dynamics.
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Alright, I am really stumped. Was wondering if somebody could point me in the right direction, because I am lost.

"The fastest recorded pitch in Major League Baseball, thrown by Nolan Ryan in 1974, was clocked at 100.8mph (45.06163m/s). If a pitch were thrown horizontally with this velocity, how far would the ball fall vertically by the time it reached home plate, 18.3m away?
 
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This is a projectile motion problem. The baseball has two components to its velocity as it flies through the air: a horizontal component that stays the same (since there are no forces that act horizontally) and a vertical component that changes (because of the force of gravity). You are given the horizontal velocity (45.06 m/s) and the horizontal distance (18.3 m). From this, compute the time. Then, compute how far the baseball fell vertically in that same time.

Related animation: http://www.physicsclassroom.com/mmedia/vectors/hlp.html
 
100.8 mph is the fastest pitch you say? That's complete shuttlecock! Just the other day, I saw a Yankee closer throw a high heater at 103mph.
 

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