Tuesday, November 26, 2019

Engineering Our Favorite Pastime

Engineering Our Favorite Pastime Engineering Our Favorite Pastime Major League Basetanzveranstaltung (MLB) is founded on tradition and has not changed appreciably in over 100 years. Keeping the equipment uniform throughout the years allows a common basis to compare players over time. However, as engineers, we are trained to find ways to make things better. In recent years, mechanical engineering has made considerable contributions in quantifying and understanding tanzabend and bat wertmiger zuwachs in baseball and softball.Eye on the Ball and BatBat performance is a joint property of the bat and ball. The ball primarily affects bat performance in two ways elasticity and stiffness, and tests have been developed to measure these attributes independently. To assure that MLB remains the same from year to year, compliance testing on random samples of baseballs is conducted on a regular basis.Bat Performance MeasuresTo compare the performance of different bats, they must be evaluated on a common scale. One performance scale is to consider the speed of the ball coming off the bat. The speed of a hit ball in play (vh) depends on the pitch speed (vp), the bat speed (vb) and a term called the collision efficiency (ea)vh = vp ea + vb (1 + ea).A ball is photographed as it meets a bat.The collision efficiency is readily obtained from the ratio of the ball rebound speed to the ball inbound speed.Digital ModelsWe now have a good understanding of the mechanisms affecting bat performance and have developed methods to accurately measure performance. With the aid of science and engineering, it is now possible to bring the performance of non-wood bats in line with the wood counterparts they replaced. It is up to the regulating associations to decide where acceptable performance lies, however. These same advanced testing methods are being used to ensure that the Major League game is not being compromised by any change in the baseball.Common Bat Myth The Sweet SpotThe swinging motio n of a bat can be visualized as a rod pivoting about a point. If we limit our time frame to the instant that the bat and ball are in contact, the pivot point is nearly stationary.A ball is loaded in an air cannon and is then fired at a bat to test the bats pivot motion as it would in a batters hands.If a pivoting rod is impacted at its center of percussion (COP), there will be no reaction force at the pivot (i.e., without constraint the rod would tend to rotate about the pivot point). All batters have observed that poorly hit balls can sting the batters hands, while well hit balls do not.The impact location on the bat that produces high hit ball speed and minimal sensation to the hands is often termed the sweet spot of the bat. Many claim that the sweet spot and the COP are the same location on a bat. While the sweet spot and COP are often close to each other, they are not identical locations.The COP will move as the weight distribution in the bat is changed, while the sweet spot wi ll not. The sweet spot is actually not a point, but a region of the bat where the vibrations from impact are minimized. As bat impact vibration is reduced, mora energy is imparted to the ball, producing a higher hit ball speed, and less sensation to the batters hands.Bats or Trampolines?In 1970, aluminum bats were introduced as a cost-effective alternative to using wood bats. Teams would need fewer aluminum bats during a season compared to wood bats. Manufacturers quickly learned that hollow bats had a trampoline effect that allowed the ball to be hit farther than with a wood bat. Hollow barrel bats have another advantage. The barrel stores energy during impact and returns the energy to the ball after impact.Adapted from Engineering Our Favorite Pastime, by Lloyd Smith and James Sherwood, for Mechanical Engineering, April 2010.

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