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Physics in Hand-to-Hand Combat

Physics in Hand-to-Hand Combat

Physics in Hand-to-Hand Combat Civilizations wax and wane but principles of physics remain steadfast. The most effective techniques from martial arts are ones that effectively dole out principles of physics, quickly, forcefully, and with a will to achieve a goal.

Some are born with an innate ability to understand physics through their body’s impulses and responses. This is known as athletic intelligence, the efficiency at which the neuronal system of a human acclimates to laws of nature in the most efficient matter to achieve a goal through repetitive movement.

For those who are not born with innately sensitive processors in the realm of athletics, we can steadily increase our performance in martial arts by learning the parameters in which we can work and then streamlining our technique until our neuronal system compensates in speed and control. Mind you that all martial arts rely heavily on physics whether you are dealing with striking arts such as Western Boxing, Karate (Kenpo, Shotokan, Okinawan), Tae Kwon Do, Muay Thai, and all styles of Kung Fu. Some are exclusively grappling arts such as Judo, Wrestling or Jiu Jitsu (Brazilian and Japanese). Some martial arts are a hybrid of both striking and grappling arts such as Hapkido and some modified forms of Kung Fu.

The most successful styles used by today’s elite military forces (a good place to look to learn what works and what doesn’t) incorporate the laws of physics better than any other system the public has access to. This does not mean these forces know the laws of physics better than we do, but it means they have found shortcuts through trial and error in the deliverance of a technique.

The basics of applying any successful technique, striking or otherwise can be broken down into a few factors.

Acceleration

Without acceleration, there is little to no power. In all martial arts, speed of technique can determine whether your technique works, misses, or is countered by the opposition.

Acceleration is defined as the change in velocity over the time interval in which it takes place. Therefore, a=v/t ( a =accleration, v =velocity, t =time ). This is the rate at which the velocity changes. Acceleration is measured in m/s^2 or m/s/s ( m =meter, s =second.

Acceleration lends power to either a devastating elbow strike or as a joint lock technique such as an arm bar. Whether you are striking to make contact, or applying a lock instantaneously, you must appreciate the power of acceleration. Acceleration, if honed by practice for control, can become a great equalizer if not an overpowering element of hand-to-hand combat.

Force

A force is an agent that results in the acceleration or deformation of an object. This agent is evident since you must accelerate your hands, head, elbows, knees and feet in order to strike targets on the opponent’s body.

Force is determined by using Newton’s Second Law of Motion which states that the acceleration of a body is directly proportional to the net force and indirectly proportional to the mass.This means that in order to move a bowling ball, for example, it will take a greater force to accelerate it than to accelerate, say, a golf ball. Also if you place the same amount of force that you used to accelerate the bowling ball on the golf ball, the golf ball will reach a much greater velocity than will the bowling ball. The opposite is also true. If you place the same amount of force on the bowling ball that you did to accelerate the golf ball, the bowling ball will not reach as great a velocity as did the golf ball given the same conditions.

The formula used to calculate force is F=ma (F=force, m=mass, a=acceleration) and is expressed in newtons (N). A newton is the amount of force that causes a mass of one kilogram to accelerate at a rate of one meter per second squared. If an object has a net force exerted on it, it will accelerate. Force and acceleration both have direction and size.

Therefore you will want to make sure that over time, you have developed a sense of how much force is being generated by your acceleration so as to improve upon your acceleration since you can’t do much about your mass.

Momentum

The momentum of an object is defined as the product of an object’s mass multiplied by its velocity. Momentum is calculated by the equation P=mv, where momentum is represented by “P”.  The product of a momentum equation is labeled as kg/m/s, where kg is kilograms (1000 grams), m represents the mass of the object, and s is seconds.

In striking aspects of martial arts, momentum plays a mixture of roles. An effective technique is usually going to be very quick and strong, and as such, you need to generate the maximum velocity allowable by time and space.

In order to find the momentum of a strike at the point of contact between two bodies of mass, assuming that the collision is inelastic, use the equation: M1V1=(M1M2)V’.  In this equation M1 is the mass of the arm or leg of the attacker, V1 is the velocity of the fist or foot at the moment of contact; M2 is the mass of the target, and V’ is the velocity of the of the fist or foot of the attacker just after the collision takes place.  This equation, M1V1=(M1M2)V’, is called the Law of Conservation of Momentum.  This law states that the total momentum in a closed, isolated system does not change.

Energy

Energy also plays an important role in the physics of mortal combat.  The more energy your technique possesses the more damage it can do.

Energy can be calculated by using the equation: KE= 1/2mv^2, where m is mass and v is velocity.  The kinetic energy is proportional to the mass of the object and is also proportional to the velocity squared.Using this equation we see that if you double you speed, you quadruple your kinetic energy, while if you double your mass (of the arm), you only double you kinetic energy.  So by knowing this if you want to create more energy in your punch or kick  increase your velocity and not your mass. In other words, rather than working out for months to gain bigger thighs, develop the speed at which a kick is delivered. Work on it slowly until your brain develops a template of your physiology at various timelines in the technique then speed up the technique until it becomes a blur.

Which to Pick?

A debate has always raged about which of the vast number of martial arts best utilizes these principles of physics. In the Ultimate Fighting Championship, where all styles are converged against each other, two styles come out on top almost every time, Jiu Jitsu, and Muy Thai Kickboxing, especially if the fighter is well learned in both the arts. Jiu Jitsu is mostly a ground fighting art. Around 90% of fights end up on the ground, and if you know how to control an opponent on the ground and administer various chokes, arm, leg, wrist, and neck locks and cranks, you will most likely be able to consistently defeat a larger and stronger opponent. This is because the weight and height advantage disappears once you’ve taken your foe to the ground.

Kickboxing is primarily a striking art that is considered very powerful when applied correctly. With Kickboxing and Jiu Jitsu in your arsenal, you are quite a force to contend with. As a matter of fact, the United States Military has revamped all of its combat training manuals to be based primarily on Jiu Jitsu and Muy Thai.

Application of Jiu Jitsu

Jiu Jitsu primarily works is through applying techniques by leverage. This means that techniques could be applied under water and even in space where there is no gravity! This is because you are posting off your opponent’s body in order to apply a technique. For this reason alone, this art is a very solid addition to your repertoire.

Notice how one who was in a position considered to be “losing” has wrapped both his legs around his opponent in the “guard” position and applied a shoulder crank thus allowing the man on the bottom to incapacitate his opponent’s right arm should he choose to, by continuously rotating his lock upwards while locking in his opponent’s body using his legs to pin his opponent’s waist not allowing any escape.

 Application of Muy Thai Kickboxing

Kickboxing applies all the aforementioned principles of physics very nicely since knee and elbow strikes are usually applied in a short, devastating manner. Such strikes also come in the form of a jab, a hook, an uppercut, or even a headbutt! Take an elbow strike for example.

The elbow strike here can be downright nasty considering the speed at which it can be delivered as well as the massive force that can be generated by having the elbow’s power come from 1) an upward lifting of the elbow at a dramatic rate using the hips to rotate the elbow upwards 2) or through a downward strike with acceleration generated by the explosive muscle contraction of the deltoids and latissimus dorsi muscle.

 A Final Word

The 3 principles to winning a fight in which your health and ultimately your life may be in danger are as follows:

  • Strike first
  • Strike fast
  • Strike repeatedly

You cannot do these three things if you don’t willingly ground yourself in principles of physics consciously or otherwise, no matter what art you ultimately choose, if any. The only way to improve is to understand the forces at work by the numbers then working on increasing the values of those numbers through repetition.

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