Analysis of Badminton Smash During this term the class undergoes the training and testing of Badminton. This sport will be played over 6 weeks, learn the rule and techniques of the sport. We were asked to record our badminton smash at the start of the training and to see if we have improved over the six weeks. To be able to improve an analysis of my smash was needed to be done. The purpose of this essay is use the biomechanical principles to improve the technique of my badminton smash, by doing so this will allow me to prove the underlying question of “How does the use of biomechanical principles assists in and improves your performance in Badminton?” What are biomechanics? It can play an essential role in analysing and improving an athlete’s …show more content…
I was pretty good at using the force of summation as I was able to push the opponent to the back of the court, but I was not able to hit the shuttle with enough speed and so further improvement of this and my stance on the court could use some more work. With m research on biomechanics on these problems I will be able to analyse and compare my technique to myself at the end of the term. The Overhead clear or drive is an effective shot as it a shot some would use the most in a rally. The Drive can be used in many ways throughout a match, for example; it can be used to play a defensive strategy, being able to hit the shuttle up toward the ceiling allowing the player to recover and be stable for the next shot. This slows down the play of the match allowing the play of attacking shots. Even though the drive is not my weakest shot, I also understand that since it is a fundamental shot in my game strategy it is important it is perfected. I will be analysing the video I took of my drive, enabling me to find where my weaknesses are. The weaknesses found will allow me to evaluate my technique and how I can make change to enhance my skill and technique of the drive by using the biomechanical
a player to win a toss up she will have a better reaction time than
Many people might think that swinging the bat straight through the ball would be enough to hit the ball a decent distance off the bat. There's many more mechanics involved in the swinging process. Muscle has only a small part to play in the swinging a bat for power. There are two types of mechanics involved while swinging a bat, Linear and Rotational. Rotational mechanics are the dominant source of power in the swing. Out of the rotational mechanics come the two forces that help generate the speed and power of the swing, torque and the other comes from the energy of rotation. Speed from the energy of rotation comes from the path that your hands follow as you swing the bat. The speed generated by the circular rotation from your hands is like a ball at the end of a string, as long as your hands are moving in a circle then the ball continues to accelerate in a circle. So the bat will also move in at an increasing speed as long as your hands are following a circular path as you swing. Any foward movement of the hands or body in a straight line won't add to the overall bat speed.
Over the past fifteen to twenty years women's fastpitch softball popularity has continued to grow and spread internationally. By the mid-1990s it was played in more than 85 countries under the eye of the International Softball Federation (ISF). It has become increasingly popular among women at the youth and collegiate levels. More than 630 National Collegiate Athletic Association (NCAA) member institutions sponsor women's softball programs, and national championships for women are held in all three NCAA sports divisions (Encarta, 1998). In 1991 women's fastpitch softball was selected to debut as a medal sport in the 1996 Olympic Summer Games in Columbia, Georgia. The U.S. won the gold medal in the 1996 Olympic Games due to a good defense and great hitters on the team. Even though defense and pitching are critical and vital parts of the game, a successful team must have an effective offense to win the game. Among all the standout hitters on the U.S. Olympic team, two of the best are Dot Richardson and Lisa Fernadez. Both Lisa and Dot have picture-perfect swings, which have made them very productive throughout their careers. Today there is a women's professional fastpitch softball league. Interest in the Women's Professional Softball League (WPSL) has been increasing for the last three years and continues to grow each year.
Baseball is a fascinating sport that is exceptionally fun to play. This assignment is all about understanding the physics of a few key aspects of this sport. One might ask what physics could have to do with baseball? Like most sports baseball involves physical motion. Baseball encompasses all three planes of motion through throwing, hitting, and fielding. All of the classical laws of mechanics can be applied to understand the physics of this game.
Broer was the first to call attention to the similarity of movement patterns used in seemingly dissimilar activities such as the baseball pitch, the badminton clear, and the tennis serve. Objective evidence of such similarities between throwing and striking activities within each of the three major upper-extremity patterns; overarm, sidearm and underarm. The representative activities from these categories across throwing patterns also showed great similarity in the muscular action of the lower extremity. Atwater distinguished between the overarm and sidearm throwing patterns in terms of the direction in which the trunk laterally flexed. When lateral flexion occurred away from the throwing arm, and overarm pattern was used; lateral flexion toward the throwing arm indicated a sidearm pattern. The underarm patter is distinguished by motion predominantly in a sagittal plane with the hand below the waist. Each pattern involves a preparatory movement referred to as a backswing, or windup, followed by the establishment of a base of support prior to the initiation of the force phase and ending in the follow-through. The base of support in the direction of the force application; forward and backward is a distinguishing feature of skill level. It has been well documented that more highly skilled individuals have longer strides. Once the base has been established, the more proximal segments begin the force application phase while the more distal segments complete the backswing.
Baseball is considered America’s past time. Legends like Babe Ruth, Lou Gehrig, Jackie Robinson, and many more have come and gone. Throughout baseball’s history certain players have excelled more than others, and like any sport they were successful by exploiting their strengths. It isn’t the rules, uniforms, stadiums, and fan base that make baseball a beautiful sport; it’s the players. Anyone competing, whether it is at a professional level or not, has their own unique mechanics that allows them to perform the best they can. No pitcher throws the ball the same way as another and no batter hits the ball the same way as another. Every baseball player has a routine in everything they do that makes them special. It has been said that hitting a baseball is the hardest task in all of sports. To accomplish that task, all factors come in to play; the type of pitch being thrown, the release point of the pitch, the break of the ball, etc. All those factors occur before the batter’s swing is fully initiated. As mentioned earlier, no batter swings the same way as another however, the mechanics of a swing is a different thing entirely. The mechanics of one’s swing begins when a batter enters the box and ends when a batter exits, what happens in between is up to the batter. By perfecting a batter’s mechanics while in the box, their chances of making contact increase greatly.
Lees, A., & Nolan, L. (1998). The biomechanics of soccer: A review. Journal of Sports Sciences, 16(3), 211-234.
Whether it is the angle needed to swing the bat, the force needed to kick the ball, or the speed needed to run, physics is present in every aspect of every sport. Players become aware at a young age that physics will be a part of their lives for as long as they play a sport, even if they are not aware of it. From the moment a child starts a sport, the many different methods used to improve revolve around physics. Softball is a prime example of this. Physics plays a role in softball because every aspect of this sport requires a certain momentum and force. Players must aim to achieve the skill to be able to use the physics behind the sport to their advantage. Through the use of hitting, catching, and throwing a softball, there is the need to
In this assignment I will be talking about the four legislative factors that influence health and safety in sport. On each of the four legislative factors I will be describing them in more details also I will be giving examples for each of them. Here are four legislative factors that I will be talking about:
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...
Gawande talks about how he came up with the idea of hiring a coach to watch him perform surgery after an experience he had playing tennis. Years of playing the game and not improving, Gawande incidentally finds himself play tennis with a young man who is a tennis couch. The young man gives Gawande a tip about keeping his feet under his body when hitting the ball. At first he is uncertain, stating, “My serve had always been the best part of my game…..With a few minutes of tinkering, he’d added at least ten miles an hour to my serve. I was serving harder than I ever had in my life” (Gawande, 2011, p.3). Gawande is so greatly impacted by this experience that he decides to hire a coach to help him with is professional endeavors.
Williams, David. The Science of the Golf Swing. London: Pelham Books Ltd., 1969. Brancazio, Peter. Sport Science. New York: Simon and Schuster, 1983.
The Physics of Tennis I. Introduction Background: A friendly game of tennis is being played. Camera: pans away from the game and zooms to Sunne. Sunne: Hello, my name is Sunne.
net to retrieve a net shot from the back of the court) but may also
There are many aspects to the game of basketball and physics can be applied to all of them. Although to be good at basketball it is not necessary to play it from a physics point of view. Basketball players become good by developing muscle memory for the actions that must be performed in the game of basketball from years of practice. Nevertheless knowing some of the physics in the game of basketball can help a good player be a better player. In this paper I will cover the three most important aspects of the game, shooting, dribbling and passing.