Many studies have been conducted on specific Taekwondo strikes and the kinetics or physics behind them. Through this experiment I will answer the questions: which line of impact is more effective in combat and why? What makes this kick or strike so effective? The importance of this comes into play when you find yourself in a physically dangerous situation. You want to know what I can do to get this attacker off my back by inflicting the maximum amount of pain possible without killing him. Taekwondo is a sport that dates back almost 2,000 years. It is one of the few popular martial arts practices. Student or teacher, learn various high-impact attacks to use when you find yourself in a dangerous situation. This can be largely used to their advantage. Taekwondo experts are able to use these attacks both in competition and for self-defense. This research is conducted to see which attacks are most effective during combat, including kicks, strikes, and punches. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get an original essay While striking, it is important to use your entire body to execute this move. This will allow you to exert more strength and power during the strike. For example, if you were to throw a punch by moving only your arm. When you just throw one punch you don't have much power because you don't use your whole body, it would be more efficient to use your hips and turn your whole body into the punch. There is more power and strength behind the strike which makes it more effective. That said, there are a few ways to make an attack more powerful. For example, when you use your middle and index knuckles to punch, you cause more pain to your attacker. When you punch, however, you are not doing it directly, you have to align your two knuckles with the object you are about to come into contact with, you do this by rotating your fist. Sir Isaac Newton stated that “for every action there is an equal or opposite reaction”. This also plays into martial arts. If and when you strike your opponent or attacker, the goal is to manipulate their body to go in the direction you want. In Taekwondo there are four parts of the body that are your "targets". These include the philtrum, sternum, solar plexus, and groin. There are many other weak points in the human body such as ribs, kidneys, eyes, knees, carotid sinuses and so on. If there were to be a direct hit to one of these four points and correctly, a great deal of pain would occur. First of all, the filter, which is located right under the nose and above the lips. Usually, this point is damaged with a punch, this can cause your attacker to lose consciousness or possibly kill him. Second, you have the sternum. The sternum is located in the center of the chest where there are no muscles. There is a bone here that can be broken if enough force is applied with a kick, punch, or other blow. Then there is the solar plexus, also known as the solar plexus. This is a very painful place to be hit. It is quite possible that your attacker will stop breathing for a few seconds after striking here, from there you can follow up with more strikes or attacks. Finally, the groin, there is a huge advantage to hitting here, you don't need to use a lot of power to make this attack effective. The most effective way to strike here is while standing, then kicking. If you are on the ground, use your palm and exert force, this is known as a palm strike. When testing this experiment, wet foam, also known as floral foam, will be used to measure strength and power. The larger the indentation in the foam, the more powerful and effective the blow will be. Wet foam is generally used to hold the stems offlowers and help the plants absorb the water in which the foam is immersed. It is less dense than other types of foam. We chose to use wet foam because it doesn't hurt and is a convenient way to test this experiment. Many studies have been conducted on the physics, kinematics and kinetics of martial arts. In 1995 the Oregon Taekwondo Research Project was conducted and funded by the United States Olympic Committee (USOC). F. Pieter and W. Pieter put this analysis on paper. During this experiment USCO wanted to observe the impact of different techniques with different genres. They learned that men are faster with both feet and tested all the techniques. In women, the most impactful technique was the right back spinning kick and the same on the left side as well. For men, on the right side it was the spinning back kick and on the left side again the spinning back kick.F. Pieter and W. Pieter studied this to compare previous impact speed in previous studies with different taekwondo techniques on male and female elites. This project was organized to continue an ongoing study of W. Pieter's taekwondo. Not only did they want to study the speed of the impact, but they also wanted to see the force of the impact with the four techniques tested. All athletes who participated were part of the 1988 U.S. Olympic Taekwondo team. To obtain results, double electric beams were used to measure impact velocity. A dual beam is a type of headlight that has both high and low beams in a single bulb. Strength was measured with water-filled bags with force sensors located inside. Overall, men measured the majority of the impact force. For women, the spinning back kick was more effective with both legs. After the spinning back kick, the side kick follows, then the roundhouse kick, and finally the backhand punch. On the left side you obviously start with the spinning back kick, then the roundhouse kick, the side kick and the reverse punch. For men, the spinning back kick was also dominant. On the right side, the second most effective should be the reverse punch, roundhouse kick and side kick. As for the left side, the second would be the roundhouse kick, the reverse punch, and then the side kick. In the end, male or female, right or left, the spinning back kick exerted more force than any other technique tested. In 2007 Jacek Wąsik conducted a study addressing the taekwondo power break. In this study Wąsik examines the durability of different materials while conducting this experiment. Wąsik was examining the Theory of Power Factors, factors that differentiate taekwondo from other martial arts. These factors include weight, balance, speed, concentration and breathing. The main question Wąsik asks is: “How is it possible that our body is able to resist these forces? Where can we look for ways to break even more wooden planks?” Here, they question how martial artists manage to apply these drastic levels of force to break boards or other materials. Where does all this come from and how are humans physically able to tolerate excessive amounts of force? Numerous observations and tests have been carried out to answer these perplexing questions. Wąsik used stacks of boards with spacers between them. This makes it easier to transfer energy or maintain momentum while striking. All the figures shown in the article have to do with how force is applied to wooden planks and how it impacts the direction of the given forces. When braking hard there are several ways.