Aikido methods comprise of entering and turning movements, which readdress the force or energy of an opponents attack, and a joint or throw lock that ceases the technique (Mroczkowski, 2012). Even though, it derives largely from the martial arts of Daitō-ryū Aiki-jūjutsu, it started to deviate from it in the late 20s, partially because of Ueshibas association to the Ōmoto-kyō religious conviction. His initial students writings have the phrase aiki-jūjutsu (Mroczkowski, 2012). However, his senior students have unique approaches to the fighting method, relying partially on when they learnt with him. Today, the style is seen all over the world in countless methods, with a couple of interpretation and stress. Nevertheless, they all share methods that were developed by Ueshiba and a majority have apprehension for the safety of the attacker. Because the technique involves force and reaction, physics is normally involved when it comes to the execution of its techniques. This paper will discuss the laws of physics behind Aikido and how things like force, momentum, rotational speed, direction, impulse and conservation of energy can work for or against a person.
Similar to Judo, Aikido is a form of martial arts, which demands an intuitive comprehension of the physics of forces, stability, torques plus rotational motion (Mroczkowski, 2012). The grace that each needs is not simply conveyed, but each and every method can be split into components, which can be assessed in reference to classical physics. Aikido seeks to surmount a rival’s stability. It is a fairly modern type of martial art, which integrates methods from a couple of other martial art methods. It is differentiated by its firm code of making sure that you do not injury the opponent. Thus, it is mainly a type of self-defense when compared to other martial arts methods such as judo (Mroczkowski, 2012). It incorporates no methods, which can be deemed as attacks and many critics have deemed it as the