Have you ever wondered if there was a bat that gives your hand more comfort to get a good hit? Well, with an Axe Bat you can have a good grip, and a good hit. Its design means that it's more efficient and safe for people to use. So, if you can get a comfortable grip on a bat, then it's going to give you more control. Hugh Tompkins believes the bat's design could help players boost their performance and reduce the risk of common hand injuries. The Axe Bat's oval-shaped grip on the handle fits flush against the contours of a person's palms and fingers. Findings from a study funded by Baden Sports, show that batters perform better using the Axe Bat. This is because its ergonomic handle allows for a more relaxed grip. On a regular bat, all the
muscles in your hand are under a lot of pressure.. So, when you have a looser grip, it allows you to have a freer swing. My scientific opinion is, I think the Axe Bat will give the batter a better swing, hit, and more of an improvement in their carrier. I think it'll also help prevent more hand and wrist injuries. The way Baden Sports created the bat's design is unique. But it probably took a lot of time to come up with the design and create it. All in all, it is a good bat, and could probably become big someday.
...al properties, the five most important being the length, diameter, weight, weight distribution, and stiffness of the bat. Bats are about six times heavier than balls and about six times lighter than a batter’s two arms. This is no mere coincidence. Tennis racquets are also about six times heavier than tennis balls. The factor of 6 is about the best ratio to ensure that energy in the batter’s arms is well coupled to the bat, and that energy in the bat is well coupled to the ball.
High tech aluminum baseball bats aren’t quite as new to the game as many people may think. Author, Patrick Hruby, wrote in Sports Illustrated, “introduced in the mid-1970’s… metal bats have become increasingly potent, forged with alloys… pressurized air chambers” (Hruby 42). Over the last few decades these aluminum ‘killer bats’ have evolved to be even more potent. “Some coaches and players claim these powerful bats are ruining the integrity of the game and placing pitchers at undue risk” (42). Every college, divisions I through III, are using these bats religiously. Each year bigger and better bats are at each team’s fingertips. A few of the more popular bats this year are the TPX C555 Platinum, TPX Omaha, and the EASTON Redline, just to name a few. These bats are so advanced that almost everything about them has changed, for instance, “…an
Pitching overhand is a particularly stressful motion; the strain it puts on a player's joint is commonly injurious. Pitchers such as Kerry Wood, Matt Morris, John Smoltz, Mariano Rivera, Tom Gordon, and Eric Gagne all have a four inch scar on their pitching arms as evidence of this career saving surgery.
Albert G. Spalding created the first major league baseball glove. “Wearing a glove just wasn’t manly” said Smithsonian. It used to be that the strongest player on the field was whoever had the most broken fingers or blisters, but after a while, players realised they
The safety of the players is the biggest concern in all levels of baseball. The belief that metal bats result in more injuries than wood contributes to the reasons MLB does not allow their use. One contribution to this belief is the difference in exit speed of the ball off the different bats. It was found that aluminum bats produce an average of 92.5 miles per hour exit speed, compared to wooden bats averaging an 88.6 miles per hour exit speed ("Baseball: Wooden Bats Vs. Metal Bats"). This is a difference of 3.85 miles per hour, which is significant considering the time it takes for players to react to a hit ball ("Baseball: Wooden Bats Vs. Metal Bats"). A study shows that it takes 0.4 seconds for a ball hit 93 miles per hour to travel 54 feet, and because the pitcher's mound lies at 60 feet-6 inches away from home plate, the pitcher has less than 0.03 seconds to react to a line drive hit to them (McDermott). While compared to the time it takes to blink an eye, 0.095 seconds, pitchers do not stand a chance against a line drive (McDermott). The use of met...
Torque is another key ingredient to a good power hitter, or even a good hitter. Torque is the result of two forces being applied to an object in opposite directions. In this case the two forces are being applied from the hands and wrists onto the bat. As you start your swing, instead of moving your hands directly at the ball, you want your hands to start a rotation. The top hand begins to move backwards while the lead arm drives the end of the bat towards the ball. The torque invloved is created around the point of the bat that lies between your hands. This torque greatly accelerates the head of the bat which will have act with a greater force when (or if ) it comes into contact with the ball.
There are a few ways to cheat in baseball, the big one is steroids or HGH (human growth hormone). Another way is corking your bat, and that’s what my experiment is all about. Now I am not using wood bats like the MLB does I am using 2 aluminum bats, one corked and one normal. One bat I will take the top off and put some type of ball or substance that will make that bat bounce more, like a few racquet balls or something like that. The theory is to make the ball go a lot farther than with just a regular bat. The experiment calls for wood bats but I altered it just a tad and used aluminum bats because that sounds more interesting to me. I chose this experiment because I really like baseball and this one stood out to me more than anything else on sciencebuddies.
The researcher has chosen to write this paper on hitting because she has played softball for twelve years and the perfect softball swing has always eluded her. The softball swing is one of the most difficult softball skills to achieve greatness in. There are a number of great hitters all with different batting stances and styles, each one comfortable to them. There are many different tactics and coaching ideas out there to help improve hitting. In fact, there are several videos now on the market to help the softball player perform better. Coaches often teach hitting drills to improve batting techniques and ability. Confidence is an important factor in hitting. If the player lacks confidence then she will not be a good hitter. Softball is not only a physical game but a mental game.
If you hit the ball at a bat's "nodes", the frequencies (each bat vibrates at several low and high frequencies at once, which is like the harmonics of stringed instruments) cancel out and since this happens you don't feel the sting in your hands that you experience when you hit the ball at different points on the bat.
Texas Tech has proven that hitting a softball is way harder to hit than a baseball. A softball pitcher is very close to you at the pitcher's mound. If you are in the batter's box it feels like they are right on top of you especially since most softball pitchers can be up to about 6 feet in height. It is scientifically proven that a softball player has less time to react to the ball because of the distance and speed of the pitch. Also, softball pitchers not only throw hard, but they also throw tricky pitches to hit. The pitch that rises upwards is called a rise ball. When this pitch comes in, most coaches will say just let it go instead of risking this pitch. Baseball players throw breaking balls, but unlike in softball they don't suddenly leap up right as you're going to swing at it. Pitchers in softball can also throw a curve ball that curves away from the batter but still in the strike zone. A screw ball moves closer to the batter. Same as a curve ball it is still in the strike zone just right on the edge of it. Softball players throw many more change ups than in baseball. Change ups catch the player off guard causing them to swing and become frustrated with themselves. As you can tell softball pitchers don't mess around using every inch of the plate to pitch the ball and strike the batter
even noticing and as a bat he can cover more ground in a shorter amount of time.
First off, the knuckle ball. It is called the hardest pitch to hit. A pitch that seemingly floats like a butterfly and then magically drops into the strike zone, dumbfounding the batter and almost always resulting in a strike out. But how is this pitch actually thrown? The name of the pitch essentially entails how the pitch is thrown, the pitcher curls his fingers into his hand, placing the knuckles of his fingers on the ball, and releasing the ball in this manner and fashion. But why does this work? It comes down to the position of the laces. By throwing the ball off the pitcher’s knuckles, the ball exhibits no spin throughout the entire duration of the pitch. This allows different lift forces within the air is passes to exert themselves upon the ball. By doing this, the ball is subject to different planar movements as a result of different lift forces manifesting themselves upon the baseball that is thrown. In a simplistic explanation, this is why a knuckle ball “knuckles” as it is thrown.
The game of baseball has several elements of motion to it – throwing, catching, hitting, running – but I’ve chosen to focus on the physics involved in hitting a baseball. To a spectator, the exchange is simple: the pitcher throws the baseball, an opposing batter tries to hit the ball. Even to an athlete, the process is not one of thought, but of instinct and action. However, in actuality, the laws of physics dictate everything that will occur from the moment the baseball leaves the pitcher’s hand. Even the very familiar equipment o...
...ase (the player shooting the ball), and you have to motion of the projectile (the way the player shoots). The importance about the motion of the stick when the player shoots is to make sure that with their most dominant hand, the one that’s highest on the stick, is pushing forward and with their bottom hand they are pulling back towards their ribcage and armpit area. When watching this motion from the side you can clearly see the lever arm being put into action on the field.