Fact-checked by Grok 2 weeks ago

Fastball

A fastball is the most common type of in and . Its defining characteristic is high velocity, typically thrown faster than other pitches, and it relies on backspin generated by the pitcher's grip to create a rising illusion via the , resulting in less downward drop compared to a spin-free . Power pitchers, such as and , are renowned for their fastballs exceeding 100 mph (160 km/h), with the fastest recorded pitch at 105.1 mph by Ben Joyce in 2024. Average fastball speeds have increased over time; Baseball's averaged 92 mph in 2008 and reached 94 mph by 2023. Common variations include the , which offers maximum speed and minimal movement; the (or sinker), which induces arm-side run and downward movement for ground balls; and the (cutter), thrown slightly slower with late glove-side break. Historically, the fastball has evolved from early in the 19th century, with grips and training techniques refining its effectiveness; it remains central to pitching strategies for striking out batters or inducing weak contact.

Definition and Basics

Overview

A fastball is the most common type of thrown by pitchers in , designed to be delivered at the thrower's maximum in order to challenge the hitter's reaction time and decision-making process. It serves as the foundational element of a pitcher's repertoire, emphasizing raw speed over deception or pronounced movement. This pitch is typically the fastest offering in a pitcher's arsenal, aiming to reach the plate in under half a second, which limits the batter's ability to adjust. The primary purpose of the fastball is to overpower the batter by arriving at home plate as quickly as possible, often forcing weak contact or swings and misses through sheer . As the pitch, it establishes the of an at-bat, against which all other pitches are measured for effectiveness. Pitchers rely on it to disrupt timing, making subsequent off-speed or breaking es more unpredictable. In terms of basic attributes, the fastball follows a relatively straight with minimal spin-induced movement, setting it apart from breaking balls that or drop sharply and off-speed pitches that rely on slower speeds for deception. This linear path, combined with high velocity, makes it the standard against which sequencing is built, as other deliveries are calibrated relative to the fastball's speed to exploit hitter expectations.

Grip Mechanics

The standard four-seam fastball grip involves placing the index and middle fingers perpendicular to the horseshoe-shaped seams on top of the , with the fingertips resting directly on the seams for optimal spin and control, while the is positioned underneath for stability and balance. The ring and pinky fingers are typically tucked to the side or below the to avoid , allowing the hand to maintain a relaxed yet firm hold that promotes a natural release. Minor variations, such as a tucked versus flat or slight finger spacing, can adjust for personal feel without altering the core seam alignment. Release emphasize a pronated at the point of ball separation, where the pulls down on the seams using the index and middle fingers to impart backspin, typically delivered from a three-quarters slot to maximize efficiency and consistency. This pronation—rotating the so the palm faces downward—occurs naturally during the acceleration phase, ensuring the ball exits the hand with the desired rotational . Common errors in grip mechanics include over-gripping, where excessive from the fingers and tenses the hand, leading to reduced and erratic release due to diminished . Amateur pitchers can adjust by focusing on even, moderate finger solely on the seams—imagining "yanking the ball down hard" without squeezing—to enhance control and power transfer. Biomechanically, efficient energy transfer in the fastball relies on coordinated speed and through the kinetic chain, where sequential motions from the lower to the accelerate the , peaking at internal velocities of 7000–9000°/s to propel the ball. and , reaching 400–700°/s, initiate this proximal-to-distal sequence, optimizing force summation without overloading the or .

Physical Characteristics

Velocity Profiles

The velocity of a fastball in (MLB) varies significantly by role, with starting pitchers typically averaging 93.7 to 94.1 mph on their four-seam fastballs as of 2024, while pitchers, including , average approximately 95 mph or higher, often reaching peaks exceeding 100 mph in short bursts— for example, right-handed relievers averaged 95.6 mph as of 2025. These differences arise because relievers focus on maximum effort over fewer , allowing them to sustain higher speeds compared to starters who must pace themselves over longer outings. Over the past two decades, fastball velocities have steadily increased across MLB, rising from an average of 91.9 in to 94.5 in 2025, driven by advances in , , and biomechanical that emphasize as a key to competitive edge. Several factors influence a pitcher's fastball . strength and overall physical , including lower-body power and , directly contribute to higher release speeds by generating greater transfer through the pitching motion. Efficient , such as optimal hip-shoulder separation and arm slot consistency, maximize and can add several miles per hour to . accumulates during extended appearances, leading to drops of 1-2 per for starters, whereas relievers avoid this by throwing in shorter, high-intensity stints. Environmental conditions also play a role; warmer temperatures enhance muscle elasticity and can boost by up to 1 , while higher altitudes reduce air , increasing perceived by minimizing drag on the ball after release. Fastball velocity is measured using advanced radar technology integrated into the Statcast system, which tracks the pitch's speed precisely at the point of release from the pitcher's hand, providing the actual initial velocity. This method, employing Doppler radar and high-speed cameras, offers greater accuracy than older handheld radar guns, which often measured speed midway to the plate or at home plate, resulting in lower readings due to deceleration. Statcast also calculates "perceived velocity," which adjusts the release speed to simulate the time a pitch takes to reach the plate from an average release point (about 55 feet), making closer releases appear faster to hitters despite identical actual speeds.

Movement Patterns

The movement of a fastball is primarily governed by aerodynamic forces acting on the ball during its flight, with backspin playing a central role in generating subtle trajectory deviations. When a pitcher imparts backspin on the ball—typically at rates between 2000 and 2500 revolutions per minute (RPM) for a major league four-seam fastball—the Magnus effect produces a lift force that opposes gravity, resulting in a trajectory that drops less than expected under pure projectile motion. This backspin-induced Magnus force arises from the asymmetric airflow around the spinning seams, deflecting the wake downward and creating an upward reaction on the ball. The raised seams on a significantly influence these aerodynamic interactions by promoting , which affects both and coefficients. These seams increase at lower speeds but transition to a more stable turbulent at pitching velocities, allowing for consistent generation; this is partly explained by , where faster airflow over the top of the spinning (due to backspin) creates lower , contributing to the net upward force alongside the Coanda effect on the seams. In fastball flight, this combination minimizes excessive drop while maintaining a relatively straight path, with the seams' orientation enhancing the Magnus force's efficiency. From the batter's , the fastball often appears to "rise" due to an , as the reduced gravitational drop from the lift makes the pitch arrive higher than anticipated based on expected and cues. In reality, no fastball truly rises above its release height, but the perceptual mismatch—exacerbated by the hitter's downward gaze and prediction errors—amplifies the illusion, particularly for high-spin examples. variants introduce a tailing action, where slight sidespin (from an off-axis release) directs the force laterally, causing the ball to break arm-side by several inches over the plate. Pitchers achieve control over these movement patterns through a consistent release point, which ensures predictable spin axis and minimizes unintended deviations from variations or arm slot inconsistencies. By maintaining a repeatable , the ball's remains reliable, allowing the intended Magnus-induced path to dominate without erratic breaks from release errors.

Variations

Four-Seam Fastball

The is gripped by placing the index and middle fingers perpendicular to the two widest seams of the , typically across the "horseshoe" shape formed by the seams, with the fingertips slightly over them to maximize backspin and promote a straight flight path. The ring finger rests along the side or below the seams for support, while the thumb is positioned underneath, often on a seam for stability; this setup allows the ball to be released cleanly out of the hand without excessive . Variations in finger spacing—such as closer together for more or wider for better —can fine-tune the , but the perpendicular alignment remains key to achieving optimal efficiency above 80%. This grip enables the to achieve the highest velocity potential among fastball variations, often exceeding 95 for elite pitchers, due to reduced drag and efficient energy transfer. It is also the easiest fastball to locate precisely for strikes, as its minimal horizontal movement allows pitchers to command it across the with consistency. As a result, it serves as the primary for power pitchers, forming the foundation of their arsenal by setting up off-speed offerings. In usage, the is frequently thrown high in the to exploit the perceptual "" created by its backspin and vertical break, typically generating 15 inches or more of induced vertical movement that makes it appear to elevate above its actual trajectory. It constitutes around 50% of many pitchers' repertoires, with examples like employing it over 60% of the time to induce swings and misses or weak contact. However, its straight trajectory can become predictable if overused, rendering it vulnerable to hitters who anticipate it and adjust their approach accordingly.

Two-Seam Fastball

The , also known as a er, is a variation of the fastball gripped with the index and middle fingers placed along the narrow seams of the , typically directly on top of the seams or slightly offset for enhanced movement, while the thumb rests underneath opposite the fingers and the ring and pinky fingers are tucked to the side. This grip facilitates pronation during release, where the rotates inward to impart sidespin, generating arm-side run—lateral movement toward the pitcher's throwing side—and , or downward break. In terms of movement, the exhibits more pronounced drop than a due to reduced backspin and increased drag on the ball's surface from the seam orientation and spin axis, often resulting in over 15 inches of break and less than 10 inches of vertical break for a true sinker profile. The forward spin component, combined with sidespin from pronation, creates this sinking action by altering aerodynamic forces, making the pitch dive more sharply as it approaches the plate. Subtle differences in release, such as arm slot and hand pronation emphasis, distinguish it from other fastballs; a lower arm slot enhances natural sidespin for greater sink and run. Pitchers commonly deploy the low in the to induce ground balls and weak contact, leveraging its to prompt swings that result in plays and limiting extra-base hits. It forms a staple in the arsenals of ground-ball-oriented pitchers, who use it to complement other pitches by tunneling visually with breaking balls or off-speed offerings that share similar arm-side movement. The term "sinker" specifically highlights the diving variant, while "two-seam" may refer to versions with more riding run, though the grips and mechanics overlap significantly in practice.

Cutter Fastball

The fastball, often simply called the , is a that combines the of a traditional fastball with subtle breaking , distinguishing it as a deceptive variant within the fastball family. Its grip starts with a four-seam foundation but features a slight offset, where the positions the directly on the seam while keeping the slightly off the seam to impart sidespin. This adjustment allows the to apply force on the outer half of the ball during release, promoting glove-side movement without altering the overall fastball arm . In terms of movement profile, the exhibits a late, sharp horizontal break toward the pitcher's glove side, typically ranging from 1 to 3 inches more than a standard fastball, while maintaining a just 2 to 4 miles per hour slower than the —often in the low-90s for pitchers. This break mimics a slider's cut but occurs later in flight, creating two-plane motion that enhances its as a straight fastball until the final moments. Higher rates can amplify this glove-side deviation, though the pitch relies more on gyroscopic for than pure or backspin. The 's primary usage context revolves around its ability to opposite-handed hitters by running in on their hands, forcing contact near the bat's handle and often resulting in broken bats or weak ground balls. This late-breaking quality makes it particularly effective against right-handed batters for right-handed pitchers (and ), as the dives inward just as the commits, disrupting timing and barrel accuracy. It has gained popularity in modern for its role in generating soft contact without sacrificing command, with pitchers like exemplifying its high-impact application. Despite its advantages, the carries limitations related to arm stress, particularly if throwing deviate from optimal fastball form. The supinated snap required for the cut can increase on the and , elevating the risk of (UCL) injuries; research indicates that each additional inch of arm-side movement beyond league averages raises the odds of UCL reconstruction by 36%. Poor execution, such as excessive finger pressure or early pronation, may further "jam" the pitcher's own arm by overloading the medial , potentially leading to reduced velocity and strength over time.

Historical Development

Origins in Baseball

In the early years of organized during the mid-19th century, pitching was governed by strict underhand delivery rules established in the 1845 Knickerbocker Rules, which required a stiff-armed, stiff-wristed toss similar to horseshoe pitching, severely limiting to prioritize accuracy and in what was largely an pastime. This underhand style, borrowed from influences, kept speeds low—typically under 60 miles per hour from the original 45-foot pitching distance—making the pitch more of a lob than a , and emphasizing placement over to allow batters ample time to react. The transition from to play in the 1860s and 1870s began to challenge these constraints, as emerging paid clubs sought competitive edges, fostering innovations like the wrist snap that added subtle speed without fully violating rules. A pivotal milestone came in 1872 when the National Association of Professional Base Ball Players legalized the wrist snap, enabling pitchers to impart more and , marking the first documented shift toward what would evolve into the fastball as a distinct, high-speed offering. By the mid-1870s, references to "swift" deliveries appeared in game accounts, with pitchers like George Zettlein reportedly throwing balls at around 80 miles per hour from the shorter distance, equivalent in reaction time to a modern 100-mile-per-hour pitch due to the proximity to home plate. The 1884 rule change, which permitted full overhand deliveries while requiring pitchers to keep both feet on the ground, revolutionized the fastball's potential by allowing greater arm extension and body leverage, dramatically increasing speeds and transforming pitching from a facilitative role to a dominant strategic element. In this pre-modern era, the fastball emerged as baseball's "natural" pitch, embodying straight-line speed without the deception of later curves or breaking balls, particularly in the professional circuits where financial incentives drove aggressive play compared to the more recreational games. This cultural shift highlighted the fastball's role in the dead-ball precursors of the late 19th century, where low-scoring contests favored pitchers who could overpower hitters through velocity alone. Exemplifying this development, , known as the "Hoosier Thunderbolt," dominated in the with what contemporaries described as unparalleled speed—estimated in the high 90s miles per hour—leading the in strikeouts five times between 1890 and 1895 while intimidating batters with his raw fastball power. His speed and control issues prompted the to move the pitching distance back to 60 feet 6 inches in 1893, a change that remains standard today.

Evolution and Records

The , beginning in 1920, marked a significant shift in toward power-oriented play, with the introduction of a livelier ball and the prohibition of the prompting pitchers to emphasize high-velocity fastballs to counter increased offensive output. This era saw fastballs evolve from control-focused pitches in the dead-ball period to weapons of overpowering dominance, as exemplified by pitchers like , whose blazing speed helped maintain rates amid soaring totals. The introduction of radar guns in the mid-1970s revolutionized fastball measurement and , providing precise data that shifted and strategy toward maximizing speed. Developed initially by Michigan State coach Danny Litwhiler, these devices, such as the JUGS gun, allowed for real-time tracking from the pitcher's mound, replacing subjective estimates and enabling pitchers to refine mechanics for higher velocities. In the late , specialized fastball variations gained prominence, including the , which emerged in terminology and widespread use during the as a hybrid offering late, sharp movement. Popularized by reliever , the cutter combined fastball velocity with slider-like break, influencing pitching arsenals across the league and contributing to a surge in swing-and-miss rates. Training innovations, such as weighted ball programs introduced in the , further advanced fastball evolution by enhancing arm strength and velocity; a 2018 study found that a six-week regimen increased average pitch speed by 3.3% (approximately 2.1 mph) in high school pitchers. Fastball records underscore these developments, with Aroldis Chapman's 105.8 mph pitch on September 24, 2010, holding the Guinness World Record for the fastest in MLB history. All-time strikeout leaders like , with 5,714 career Ks largely powered by his mid-90s fastball, highlight the pitch's role in dominance; Ryan's velocity and control set benchmarks that influenced generations. As of 2025, average fastball velocity has climbed to 94.5 mph league-wide, driven by analytics-driven and biomechanical optimizations that prioritize efficient and spin rates. Advanced pitch-tracking technologies, including cameras integrated into since 2020, have further propelled this trend by providing granular data on movement and release points, enabling pitchers to fine-tune fastballs for optimal effectiveness.

Role in Gameplay

Strategic Use

In baseball pitching, establishing command of the fastball early in the count is a foundational that allows pitchers to dictate the at-bat and build confidence for later pitches. By throwing fastballs for strikes in initial counts like 0-0 or 0-1, pitchers can avoid falling behind, which forces hitters into defensive positions and opens opportunities for off-speed pitches. This approach is particularly emphasized in the first time through the batting order, where consistent location helps set the tone for the game. Pitch sequencing often incorporates tunneling to enhance , where fastballs and off-speed pitches share a similar release point and initial trajectory, delaying the hitter's ability to differentiate them until approximately 20-30 feet from the plate. This technique maximizes the effectiveness of subsequent breaking balls or changeups by keeping hitters off-balance and committed to swinging early. For instance, a well-tunneled fastball-changeup pair exploits the hitter's expectation of , leading to mistimed swings. Situationally, high fastballs are deployed to generate swing-and-miss outcomes, as their elevated position in the demands rapid adjustments from hitters, often resulting in whiffs due to the pitch's speed and angle. Inside fastballs, particularly to right-handed batters, serve to jam the hitter and effectively widen the plate by pushing them off the inner third, creating space for pitches away later in the count. These tactics are most effective when used sparingly to maintain unpredictability. Against specific hitter matchups, fastballs leverage advantages over batters who struggle with high-speed pitches, reducing their time and increasing difficulty; for example, pitchers with above-average fastball see higher whiff rates against fastball-weak hitters. League-wide, fastballs have declined to around 42-45% of all pitches thrown in by 2025, reflecting a shift toward off-speed and breaking pitches for zone coverage and deception, though usage varies by count and opponent tendencies. Coaching principles stress building endurance through targeted , mechanical efficiency, and progressive conditioning like long-toss programs to sustain fastball quality deep into games. To counter predictability, instructors advocate mixing fastballs with curves and changeups in varied sequences, ensuring no pattern emerges that hitters can exploit for better timing. These methods prioritize long-term arm health alongside tactical versatility.

Notable Pitchers and Examples

, active from the late 1960s through the 1990s, became synonymous with overpowering fastballs, holding the official MLB record for the fastest recorded pitch at 100.9 mph during a 1974 game against the , a mark that stood until 2010. His ability to maintain velocities exceeding 100 mph into his 40s, including seven no-hitters, exemplified the fastball's role in dominance, with Ryan amassing a record 5,714 career strikeouts largely on the strength of his . , dominant in the 1960s, relied on a mid-90s fastball estimated at around 97 mph that featured exceptional late movement, contributing to his four no-hitters and three Awards between 1963 and 1966. Koufax's fastball, paired with his , overwhelmed hitters, as evidenced by his 1965 season where he led the league with a 2.04 and 382 strikeouts in 323 innings. In the modern era, has showcased a potent combination of a high-90s and a introduced in 2016, which enhanced his command and deception, helping him secure three Awards (2011, 2019, 2022) and maintain effectiveness into his 40s. Verlander's fastball-cutter mix has generated swing-and-miss rates above 25% in key seasons, allowing him to post a career 3.32 over 3,567 as of 2025. , a premier reliever since 2010, holds the current MLB record for the fastest pitch at 105.8 mph, thrown on September 24, 2010, for the , with multiple pitches exceeding 105 mph throughout his career. His relief appearances often feature triple-digit fastballs, contributing to eight selections and a career 2.52 over 821 as of 2025. Memorable events underscore the fastball's evolution, such as Bob Feller's 1946 test using U.S. Army equipment, where his fastball was clocked at 98.6 at the plate—adjusted for modern measurement from the pitcher's hand, equivalent to approximately 107.6 . In the 2010s, Jordan Hicks emerged as a velocity standout, throwing two 105 fastballs on May 20, 2018, for the Cardinals, and averaging over 100 on his sinker in 2019, marking him as one of the hardest throwers of the decade. The legacy of these fastball specialists has profoundly influenced MLB training methodologies, particularly post-2010, when pitchers like Chapman and Hicks popularized weighted-ball programs and biomechanical analysis to boost , resulting in league-wide fastball averages rising from approximately 91 in 2010 to 94.5 by 2025. This shift toward velocity enhancement, including Driveline Baseball's protocols adopted by numerous teams, has elevated the fastball's strategic primacy while raising concerns, yet it has redefined pitcher development across all levels. In 2025, reliever exemplified this trend, averaging 101.2 on his and throwing a 104.5 in the .

References

  1. [1]
    Bio - Fastball The Band
    all veterans of Austin's underground rock scene — originally banded ...Missing: history | Show results with:history
  2. [2]
    Fastball — All The Pain Money Can Buy: 20th Anniversary Edition
    Remastered 20th anniversary edition of the Platinum-certified classic featuring the #1 Modern Rock Hit “The Way.” When the first single from Fastball's ...Missing: RIAA | Show results with:RIAA
  3. [3]
    Fastball - Music Publishing - Concord
    ... chart for a year, with lead single “The Way” topping the Billboard Modern Rock chart for seven weeks while hitting #5 on Billboard's Top 40 Mainstream chart.
  4. [4]
    https://premierpitching.com/blogs/premier-pitching-chronicles/deconstructing-the-fastball-the-most-powerful-pitch-in-a-pitchers-arsenal
  5. [5]
    New Album SONIC RANCH out June 21st - Fastball The Band
    Apr 23, 2024 · The new Fastball album SONIC RANCH comes out June 21st. Pre-order on CD & Vinyl is available. The first single is “Rather Be Me Than You”.
  6. [6]
    Fastball drummer hospitalized days before Syracuse concert
    Jul 21, 2025 · Fastball announced that drummer Joey Shuffield “is currently in the hospital dealing with a medical issue.” The group did not specify his health ...
  7. [7]
    Frontman of hit '90s band says he would do this again 'in a heartbeat'
    Jul 7, 2025 · Once the tour wraps up, Fastball plans on going into the studio before the end of the year to work on new music. But if another chance to go on ...
  8. [8]
    Four-Seam Fastball (FA) | Glossary - MLB.com
    A four-seam fastball is almost always the fastest and straightest pitch a pitcher throws. It is also generally the most frequently utilized.
  9. [9]
    Pitches - BR Bullpen - Baseball-Reference.com
    Jan 13, 2025 · The four seam fastball is the standard pitch in baseball, and is almost always the fastest pitch in the arsenal of any pitcher who throws it.
  10. [10]
    Identifying Pitch Types: A Fan's Guide - MLB.com
    Jun 1, 2019 · This one's easy. A four-seam fastball is the fundamental pitch of baseball. It's straight, and it's hard. Heck, if it's a really good one, it ...
  11. [11]
    Deconstructing the Fastball, the Most Powerful Pitch in a Pitcher's ...
    Aug 4, 2023 · The two main goals of a fastball are to overpower hitters with speed, causing late swings and to use precise placement to secure outs.
  12. [12]
    The Fastball and Velocity | Perfect Game USA
    The fastball, always has been and always will be the most important pitch in baseball. Young pitchers would be well advised, and usually are by good pitching ...
  13. [13]
    https://pmc.ncbi.nlm.nih.gov/articles/PMC3445080/
  14. [14]
    Advanced Pitching Strategy | Establishing the fastball
    Jul 24, 2016 · A well located fastball is the most difficult pitch to hit consistently. The hitter has less time to react, and the further the ball is away ...<|separator|>
  15. [15]
    How to Throw a Four-Seam Fastball & 4 Seam Fastball Grips - Driveline Baseball
    ### Summary of Four-Seam Fastball from Driveline Baseball
  16. [16]
    How to Throw a 4-seam Fastball (Grips, Cues, Types, etc.)
    May 12, 2023 · The grip for the 4-seam fastball is pretty standard: The index and middle finger will be placed on top of the baseball, with the fingertips ...
  17. [17]
    How to Throw a Baseball, Part 1: The 4 Seam Grip
    This is achieved by taking your middle and index fingers of your throwing hand, and placing it perpendicular to the horseshoe of the seams on the baseball.
  18. [18]
    Luis Castillo and the Pronator's Triangle | Baseball Prospectus
    Jan 5, 2024 · In simple terms, pronation bias is the tendency to get on the inside part of the baseball at pitch release. Backspin bias is what I personally ...
  19. [19]
    https://journals.humankinetics.com/view/journals/jab/21/1/article-p44.xml
  20. [20]
    The Kinetic Chain in Overhand Pitching: Its Potential Role for ...
    A pitcher's velocity, consistency, and durability may be linked to kinematic and kinetic factors as well as the temporal association of segmental body motions.
  21. [21]
    MLB pitchers succeeding without high velocity in 2024
    May 20, 2024 · The current average four-seam fastball velocity from starting pitchers is 93.7 mph. That's a full 2 mph more than the league average from 15 years ago.
  22. [22]
    The State of Starters in 2024 - FanGraphs Baseball
    May 2, 2024 · They've averaged 94.1 mph with their four-seamers, yet despite all that velocity, they've thrown fastballs of any type just 54.9% of the time.<|control11|><|separator|>
  23. [23]
    Flamethrowers rule mound as right-hander average 4-seam fastball ...
    Sep 30, 2025 · Among right-handed relievers, the average four-seamer was 95.6 mph. For all pitchers, four-seamers averaged 94.5 ...
  24. [24]
    Passan: 5 biggest takeaways from MLB's pitching study - ESPN
    Dec 17, 2024 · ... average fastball velocity in MLB jumped from 91.3 mph in 2008 to 94.2 mph this year. Velocity has been pursued by pitchers because it is ...<|control11|><|separator|>
  25. [25]
    MLB study identifies factors for rise in pitching injuries - ESPN
    Dec 17, 2024 · Pitchers chasing higher velocity and better "stuff" while exerting maximum effort more often were identified as factors in the rise of arm ...
  26. [26]
    Relationship of Biomechanical Factors to Baseball Pitching Velocity
    This study examined the relationship between fastball velocity and variations in throwing mechanics within 19 baseball pitchers.
  27. [27]
    The Top 12 Reasons For Velocity Fluctuations (part 1) - Tread Athletics
    Feb 28, 2018 · Velocity fluctuations can be due to cumulative fatigue from throwing or lifting, caloric balance, weather, and mound conditions.
  28. [28]
    Pitching at Altitude, Part 2: Mile High Fastballs | Purple Row
    Aug 15, 2023 · There is one positive to the lower air density, however, that being that perceived velocity is actually higher at Coors Field than it is at sea ...
  29. [29]
    Velocity (VELO) | Glossary - MLB.com
    Conversely, Statcast can provide the maximum speed of a pitch at any point in its flight -- with the max speed always being at the release point, due to physics ...Missing: radar gun<|control11|><|separator|>
  30. [30]
    The Measure Of A Fastball Has Changed Over The Years
    Aug 5, 2020 · The current MLB Statcast system measures velocity as the pitch leaves the pitcher's hand.
  31. [31]
    https://tht.fangraphs.com/the-physics-of-a-rising-fastball/
  32. [32]
    What Statcast spin rate means for fastballs - MLB.com
    Jan 3, 2017 · 255 batting average across the sport last year, 2,264 rpm is your starting point for average four-seam fastball spin rate. Lots of pitches ...Missing: typical | Show results with:typical
  33. [33]
    https://plus.fangraphs.com/the-importance-of-release-point-consistency/
  34. [34]
    (PDF) On the Aerodynamic Forces on a Baseball, With Applications
    Jan 28, 2019 · Baseball aerodynamics is governed by three phenomenological quantities: the coefficients of drag, lift, and moment, the latter determining the ...
  35. [35]
    Lift of a Baseball | Glenn Research Center - NASA
    Jul 3, 2025 · A spinning baseball generates lift perpendicular to its travel, due to air flow being pulled in the direction of spin, creating a force.Missing: raised Bernoulli
  36. [36]
    [PDF] The effect of spin on the flight of a baseball
    For these conditions the vertical motion is particularly sensitive to the Magnus force, which leads to a downward acceleration smaller or larger than g, the ...Missing: movement | Show results with:movement
  37. [37]
    [PDF] The Perceptual Illusion of Baseball's Rising Fastball and Breaking ...
    The rising fastball and breaking curveball are perceptual illusions caused by the batter misestimating the speed of the pitch.
  38. [38]
    The Physics of a Rising Fastball - The Hardball Times - FanGraphs
    Jul 31, 2017 · A rising fastball requires the Magnus force (from spin) to exceed the ball's weight. This occurs when the ball's speed and backspin are above a ...Missing: aerodynamics | Show results with:aerodynamics
  39. [39]
    https://www.baseballprospectus.com/news/article/29819/the-toolshed-fastball-movement/
  40. [40]
    The Importance of Release Point Consistency
    Feb 8, 2015 · The consistency will be measured by RMSE (Root Mean Squared Errors) in release points. The RMSE represents the standard deviation of the ...
  41. [41]
    A Quantitative Approach to Studying Release Point Consistency
    Jan 19, 2006 · Consistency in arm movement and release point is exactly what makes a pitcher with a good fastball and changeup so devastating--think Santana.Missing: control | Show results with:control
  42. [42]
    [PDF] Pitching-Grips-101.pdf - Ngin
    Breakdown: The four seam knuckle fastball is very similar to the splitter, as they both come up to the plate with fastball trajectory, then drop at the plate.
  43. [43]
    How to Throw a Sinker or 2-seam (Grips, Cues, Types, etc.)
    Apr 27, 2023 · The thumb should be placed directly underneath the baseball opposite these fingers. The ring and pinky finger should be tucked off to the side.
  44. [44]
    Players' View: Are Two-Seamers and Sinkers the Same Pitch?
    May 30, 2017 · Whenever you throw a two-seam right, it's going to have sink to it. You don't want just lateral movement. You want vertical. That's what misses ...
  45. [45]
    Cutter | Baseball-Reference.com
    A cutter is a type of pitch that is a variation on the fastball. The cutter pitch cuts away from the hitter.
  46. [46]
    The Toolshed: Fastball Movement - Baseball Prospectus
    Jul 14, 2016 · The force is applied to the middle of the baseball usually with a two-seam grip. The sinker can run or tail as well as sink towards the arm ...
  47. [47]
    Understanding Rapsodo Pitching Data: Break Profile (Fastball)
    Jul 4, 2022 · Since cutters have the greatest amount of gyroscopic spin out of the fastball tree, their movement profile should hover close to the center of ...
  48. [48]
    Keri: The art of the cutter, a pitch that can turn around careers
    May 24, 2019 · The pitch's “cutting” action refers to its ability to bore in on opposite-handed hitters (and break away from same-handed hitters).
  49. [49]
    Research & Innovation | UAB Reporter
    Oct 22, 2025 · Pitch movement was associated with injury risk as well. Increased arm-side movement of cutters had the most predictable link with injury risk ...
  50. [50]
    How the cutter grip can affect arm strength - FOX Sports
    Mar 4, 2020 · Sliders and changeups do better, but -- theoretically at least -- you can throw the cutter more often than those pitches. If it's a fastball.<|control11|><|separator|>
  51. [51]
    Pitching: Evolution and Revolution | by John Thorn | Our Game
    a ...
  52. [52]
    The Rise and Fall of the Deadball Era
    I will describe how conditions in the 1870s, when major-league baseball began, favored a contact-oriented approach to hitting and produced an entertaining, high ...
  53. [53]
    June 8, 1885: Presto Change! Cannonball Morris dominates after ...
    May 19, 2022 · June 8, 1885: Presto Change! Cannonball Morris dominates after overhand pitching is suddenly legalized – Society for American Baseball Research.
  54. [54]
    Amos Rusie – Society for American Baseball Research - SABR.org
    Jan 4, 2012 · On July 31, 1891, Rusie pitched a no-hitter, shutting down Brooklyn, 6-0. It was the first no-hitter ever pitched by a New York hurler. Year ...
  55. [55]
    Live Ball Era | Glossary - MLB.com
    Live Ball Era (since 1920)​​ It resulted from a combination of factors, including stricter rules regarding what types of pitches would not be permitted ( ...Missing: emphasis power
  56. [56]
    https://conormclaughlin.net/2025/10/rising-fastball-velocities-are-surpressing-the-home-run/
  57. [57]
    History of RADAR Gun Use for Sports - Kustom Signals
    In baseball, the first handheld RADAR guns appeared in the 1960s. Before their arrival, estimating pitch speed was inexact, sometimes requiring contraptions ...
  58. [58]
    How the Evolution of the Cutter Has Changed the Game of Baseball
    Jun 2, 2018 · The terms "cutter" and "cut fastball" didn't show up until the 1990s, but it's probable that the cutter was pretty common in baseball in the ...
  59. [59]
    The Rise of the Cutter: How Mariano Rivera Changed Pitching Forever
    Jul 13, 2024 · The cutter, or cut fastball, is a hybrid between a fastball and a slider. Rivera's version was unique—gripped like a fastball but with a slight ...
  60. [60]
    Effect of a 6-Week Weighted Baseball Throwing Program on Pitch ...
    Performing a 6-week weighted ball throwing program increased pitch velocity. However, the program resulted in increased shoulder external rotation PROM and ...
  61. [61]
    Fastest baseball pitch (male) | Guinness World Records
    The fastest baseball pitch is 105.8 mph (170.2686 km/h) and was thrown by Aroldis Chapman (Cuba) for the Cincinnati Reds in a game against the San Diego Padres.
  62. [62]
    Career Leaders & Records for Strikeouts | Baseball-Reference.com
    Career SO Leaders:1.Nolan Ryan+/5714/957, 2.Randy Johnson+/4875/691, 3.Roger Clemens/4672/213, 4.Steve Carlton+/4136/1881, 5.Bert Blyleven+/3701/514, 6.Nolan Ryan · Zack Greinke · Steve Carlton · Bert Blyleven
  63. [63]
    Rising Fastball Velocities are Surpressing the Home Run
    Oct 6, 2025 · ... average fastball velocity for all pitchers in the 2025 season was 94.5 mph. FB Velocity Trend. Visualizing Home Run Rate. One thing I've been ...
  64. [64]
    Pitch-tracking Era | Glossary - MLB.com
    Statcast used Trackman radar for pitch tracking through the 2019 season, and has used Hawk-Eye high-speed cameras for pitch tracking from 2020 through the ...<|control11|><|separator|>
  65. [65]
    “Changing up” your mentality as a Pitcher - Pitch Mechanics 101
    Aug 15, 2015 · Because starting pitchers are taught to “establish their fastball the first time through the order”, and short inning relievers are taught ...
  66. [66]
    Pitch Tunneling: Is It Real? And How Do Pitchers Actually Pitch?
    Jun 16, 2017 · Pitch tunneling is when two pitches travel the same trajectory, looking identical until the last moment. It's created by repeating delivery and ...
  67. [67]
    https://www.forbes.com/sites/richkarlgaard/2020/08/04/sandy-koufax---greatest-pitcher-ever---and-a-late-bloomer/
  68. [68]
    All about the high inside fastball | The Hardball Times - FanGraphs
    Nov 13, 2009 · ... fastball, but what about pitch sequencing? Is a high inside fastball better when thrown following a fastball or an off-speed pitch, and ...
  69. [69]
    Which Pitch Should Be Thrown Next? - the FanGraphs Community
    Aug 20, 2021 · If a pitcher has the platoon advantage, a fastball or slider is the most effective pitch to throw to start the plate appearance. Pitch location ...
  70. [70]
    A League-Wide Update on Pitch Mix | FanGraphs Baseball
    May 31, 2023 · At 48.6%, 2022 was the first time league-wide fastball usage had ever dipped below 50%. This year, it's at 47.6%. Over the course of the pitch ...
  71. [71]
    Speeding Up Your Game: The Fastball Formula for Pitching Velocity
    Mar 23, 2024 · Optimizing pitching mechanics is the foundation for increasing velocity. Focus on proper body alignment, arm angle, and release point to ...Missing: principles mixing
  72. [72]
    Fastest Pitches Ever Thrown in MLB History - Sports Illustrated
    Jul 15, 2025 · Nolan Ryan was clocked at 100 mph but was subject the old standard of radar tracking (at home plate). Many believe that if Ryan was clocked ...
  73. [73]
    Nolan Ryan - BR Bullpen - Baseball-Reference.com
    He formerly held the record for the fastest "officially recorded" pitch thrown in a baseball game at 100.9 miles per hour (unofficially his fastest pitch was ...Missing: 1970s | Show results with:1970s
  74. [74]
    Sandy Koufax — Greatest Baseball Pitcher Ever - Forbes
    Aug 4, 2020 · Koufax only had two pitches: a 97 mph fastball that physicists denied but all facing batters said was gospel truth: the ball would suddenly hop ...
  75. [75]
    Sandy Koufax, best left-handed pitchers in MLB
    Jun 27, 2016 · His four-seamer arrives at 89.6 mph, yet his mastery of the lower half of the strike zone allowed him to register nearly a strikeout per inning, ...
  76. [76]
    Justin Verlander is throwing a cutter and it's nasty | Bless You Boys
    May 25, 2016 · Keep in mind that Verlander's slider has averaged around 85 mph throughout his career. The new version is coming in at 89-90 mph.
  77. [77]
    Justin Verlander's Latest Transformation - FanGraphs Baseball
    Aug 29, 2025 · This year, he's closer to his career norms. After pitching behind in the count 27.5% of the time in his second go-around in Houston, he's down ...Missing: impact | Show results with:impact
  78. [78]
    10 fastest pitches in MLB History: Regular season and playoff records
    Oct 2, 2025 · 1. Aroldis Chapman, 105.8 mph (Sep. 24, 2010) · 2. Aroldis Chapman, 105.7 mph (July 18, 2016) · 3. Ben Joyce, 105.5 mph (Sept. 3, 2024) · 4.
  79. [79]
    TBT: How fast was Cleveland Indians legend Bob Feller's fastball?
    Apr 16, 2015 · Feller also once tested his fastball against a racing motorcycle and was estimated to have thrown 98.6 mph that time as well (or 104 mph by ...Missing: adjusted | Show results with:adjusted
  80. [80]
    Hicks hits 105 mph -- twice -- on radar gun - MLB.com
    May 20, 2018 · Hicks is now just the fourth pitcher to reach 104 mph in pitch-tracking history, joining Chapman, Mauricio Cabrera (2016) and Neftali Feliz ( ...Missing: velocity | Show results with:velocity
  81. [81]
    Speed trap: How velocity has changed baseball - MLB.com
    Apr 1, 2016 · The average fastball velocity that season was 90.47 mph. Last year, it was more than one mph faster. The percentage of total pitches registering 95 mph or more ...<|control11|><|separator|>
  82. [82]
    https://www.drivelinebaseball.com/2019/03/injury-risk-performance-velocity/