Chapter 1317 Academic nuclear bomb! The bottleneck of the entire industry has been opened by one person
United States, California, Orange County.
"Teacher, Professor Su's latest submission is here!" Hearing someone shouting outside the door, Malone Burke originally thought that he had to take a lunch break. After all, he is a middle-aged man, not a teenager, so he should take a rest. Ordinary Omi people
In fact, there is no habit of taking a lunch break, but the intensity of mental work is too great, and the body does not exercise all year round. Let alone taking a lunch break, even Malone Burke wants to take a nap within a few hours.
Moreover, he also read carefully the paper about Su Shen's nap.
It does make sense.
Therefore, he also began to adjust his naps to fragments of time throughout the day in order to achieve better working conditions.
It doesn't take long, even fifteen minutes will do.
It can indeed restore a lot of vitality to your brain.
But since this person was "Su", he immediately sat up, put on his glasses, reached out and opened the computer at hand. Click to enter the editor-in-chief of his "journal of sport rehabilitation" and "medid's sports and exercise"
On the page, sure enough, an email with an asterisk came into view.
"The application and future development of human fascia in sports"
"A brief discussion on how to match the fascia system and muscle system in practical application"
"Fascia?" Marlon Burke pushed up the gold-rimmed glasses on his nose and murmured to himself: "Isn't this some project that was started in 2007? There have only been two research conferences around the world.
Time, isn't this still being discussed and defined? Why did Su start paying attention to this? This should be something that the medical field pays more attention to."
Yes, initially muscles, fascia, etc. are actually all derived from medical science. If you want to explore sub-sciences or extend classification, it usually takes a long time. But as soon as he opened it, he was attracted by Su Shen's
These things completely attracted me.
…
Fascial potential energy conversion?
You can try jumping from one place to another. Start with a half squat, then stop, and then jump with all your strength. As soon as you land, jump up quickly. Is there any way that the first two jumps are similar?
The feeling, but the feeling of strength, is completely different? This is because the first fascia does not help you much. Most of the time, it relies on the muscles of the thighs, buttocks and calves to push your body, while the second
The secondary fascia is used to support your body and keep your body balanced. Stretching can guide the muscles to contract later, and the impact absorbed by the fascia will be converted into force to help the muscles contract and make you jump.
.
If used properly, it will produce the effect of 1 1 greater than 2.
In the past, the classic theory of muscle dynamics, namely The Force-velocity relationship, discussed that when muscle fibers actively change their length, energy is transmitted through the shortened tendon to produce movement. When discussing the relationship between contraction speed and output force: concentric contraction
Among them, the slower the speed, the more conducive to the combination of cross-bridges to generate force; during isometric contraction, the frequency of alternating cross-bridge cycles is lower, and the efficiency of contraction output force is also higher; during eccentric contraction, the faster the speed, the better the muscle fibers resist the reverse pulling force.
The greater the resistance.
In this state, the muscle fibers actively change their length, and the fascia plays a passive role, and its length hardly changes. However, in oscillatory movements, such as bouncing, running, and plyometric movements, this kind of elastic and rhythmic movement
During the movement, the muscle length does not change significantly. Instead, the fascia tissue acts like a spring, providing elastic potential energy to maintain the rhythm of activity.
It can be found that during bouncing movements, the Achilles tendon uses its elastic collagen component to release the stored elastic potential energy into bouncing kinetic energy. Therefore, during this type of activity, the length of the muscle fibers does not change much, but it is energy-saving.
In fascia training, how to increase the elasticity of fascia, use the elasticity of collagen to save energy consumption of muscles, and increase movement efficiency are the focus of training.
…
Then Su Shen continued to write in the paper, using detailed experimental data and experimental models:
So, how do we adjust our body so that it does not move freely in this world like a puddle of mud? It turns out that fascia, bones and muscles together form a body full of tension, supporting
With our bodies, it is called the "tension unified integration model" in architecture.
Su Shen added a relatively complicated-looking structural diagram here and said:
It is composed of an elastic structure (the rubber band in the picture below, which represents the muscles and fascia of the human body) and a stable structure (a stick in the picture below, which represents the skeletal system of the human body).
1. The elastic structure is used to resist changes in tensile force.
2. A stable structure is connected by two elastic structures.
3. The elastic structure keeps the system in a tense state.
Fascia is like a spring that can store external force and then transmit it. Our body is under a good tension structure. When we walk, we are actually constantly receiving pressure from our feet.
The reaction force on the ground is then released, allowing our body to continuously move forward. In this case, the muscles do not produce much force, so it will relatively save energy, so you can
Take a long walk without taking a break.
In contrast, jogging or even impact cannot rely solely on the function of fascia, but relies more on the active participation of muscles. However, in order to obtain a good running action, you also need a healthy muscle.
The membrane connects the entire body together, allowing the muscles to do the right thing at the right time, so that the least energy can be consumed and the best sports performance can be achieved.
Absorb external impact → convert and store elastic potential energy → release energy.
In short, it has both elasticity and a stable structure, which puts the whole body under dynamic tension. This is a secret to improve athletes' abilities that will be studied in the future.
…
The most important thing is that he actually drew a detailed whole-body diagram of the fascial network!
This is something that has never been done before!
In the past, there were only neural networks, blood vessel networks, muscle networks, bones, etc. Even the current Fascia Global Discussion Conference has not come up with such a comprehensive thing.
This is a theory that can only be developed by combining anatomy, kinematics, mechanics and other majors.
even.
All you need to do is show this whole-body diagram of the fascial network, and it will shock the entire scientific community and even the medical community.
This is the first time in human history that this thing has been discovered so completely.
Completely opened up a new world!
This guy, if he doesn't take action, he will shock the world if he does.
It is difficult to estimate how much experimental funds it will cost just to dissect this diagram. His laboratory...
He really has money, people and direction.
What's more, he has integrated this into his own sports system so quickly.
It simply greatly shortens the time it takes to extend to kinematics.
"genius!"
"What a genius!
"
Marlon Burke looked at it and couldn't help but clap his hands in admiration. The coffee on the table almost fell to the ground.
"Hurry, send an email to Su quickly..."
"No, I will call him personally to verify!"
"Then notify everyone to hold a meeting and make this paper the focus of the meeting!"
Marlon Burke was almost neurotic. Several of his students had not seen him so "crazy" in a long time.
After all, a person with his academic status would basically not be like this, and it would be difficult for him to be happy about it.
And if it really makes him "become beaming with joy", it will definitely be an academic bomb, or even an academic nuclear bomb.
Because kinesiology is a new subject, many times it feels like it has reached a bottleneck.
These musculoskeletal sensations have all been studied to a bottleneck.
Recent papers are becoming less and less "nutritious".
It lacks a breakthrough in a new world.
For example, when I first started studying muscles, there were so many things to study, and a new door was opened for everyone.
Now, I haven't discovered anything new in a long time.
did not expect.
This Eastern genius discovered one so quickly.
It’s simply...horrible!
But it also made them, as practitioners, feel that there were suddenly more things they had to do in the future.
New things can arouse human beings' most primitive sense of curiosity.
Not to mention those who are engaged in academics.
Simply "hungry".
It's a pity that Su Shen didn't have time to say a lot of things. This is just a rough idea. But even so, this paper is enough to explode the sports academic community. It is estimated that a new "tsunami" will soon usher in.
.
As for Su Shen, he knew that if he didn't say anything, someone would immediately follow up within five or six years.
The smart minds of the world are not kidding.
Therefore, in modern times, when it comes to scientific research, you can only take the path of leading step by step, trying to take advantage of yourself to gain an advantage.
It has become increasingly difficult.
After all, scientists are not fools.
Fortunately, Su Shen believed that what he had in his mind was definitely sufficient in the field of kinematics.
As for the future movement skills of the flower grower, it depends on how the people behind him walk after he has built the bridge.