The  Application  of  Projection  Powders  in  Sports.





I n d e x

1.  The  use  of  projection  powders  in  long  jump.  =>
2.  The  use  of  projection  powders  in  other  sports.  =>
3.  Problems  with  the  use  of  projection  powders  in  sports.  =>



1. The  use  of  projection  powders  in  long  jump.

   The use of projection powders in sports is the simplest and most obvious application of HomoTechnology. Its essence is clear: one person places their body in critical conditions (on the brink of physical survival). Under these conditions, their body maximally activates all its vital functions in order to survive. This is reflected in the fact that their blood receives substances that cause maximum activation of their body. These substances can be removed from the body and given to others, in whose bodies they should elicit the same reaction. Due to this, athletes should demonstrate results that exceed their normal performance.

    The technique of naturally activating the body's maximum capabilities is well-known and widely used in sports. As an example, we can cite the conception of female athletes 3-4 weeks before a competition, which causes a positive restructuring of their body (preparing the body for pregnancy). This method allowed East German swimmers to win prizes at all major international competitions in the 1970s, until it was discovered and adopted by other athletes.

    We are not the first to discover this effect. We are confident that in ancient Greece, this effect was known and used by athletes.    Why do we believe this?
   First: In our experience, the human body's transition to the potential production of projection powders is manifested by a change in the testicles in men. In all men, the left testicle droops more than the right. In medicine, greater drooping of the right testicle is considered a temporary and rare anomaly caused by some circulatory disturbance. But when a person's body is ready to produce red projection powders, their testicles change, and the right one consistently sags more than the left. Some ancient Greek statues depicting male bodies show the right testicle sagging more. The Greeks were well-versed in human external anatomy and could not have accidentally made such a mistake.
   Secondly:We have evidence of the remarkable records of Ancient Greek athletes.

    But can just anyone induce the "ballon" state? Will this ability translate to other sportmens?

    I think that using Projection Powders can induce a ballon-like state in anyone. This should yield positive results in long jumps (both regular and triple jumps). Whether this will be true for other sports is unknown. Experimental studies with athletes are needed.


2. The  use  of  projection  powders  in  other  sports.

  We hypothesize that using Red Powder may have a positive effect in other sports as well. For example, in running, it should increase the time a runner spends in the air with each step. This will increase stride length. This could lead to increased running speed, fewer steps per distance, and reduced energy consumption. In ancient Greece, for example, an athlete had to catch a hare to qualify for sprint competitions. This equates to a 100-meter dash time of approximately 8 seconds, compared to 10 seconds for today's athletes. That is, we are achieving the same 20% improvement in results.
    The positive effect can be seen in all sports that involve running and jumping.
    What the results will be in strength sports, swimming or tennis, is unknown.
    The use of Projection Powders (red for competitions and white for training) in sports has not been studied at all and will require large-scale research in the future.


3. Problems  with  the  use  of  projection  powders  in  sports.

    The problem with this research and the use of red powders in sports is that they require an irreversible consumption of red powder. Every athlete needs at least two packets of red powder to achieve Olympic results (one packet for pre-training, one for the Olympic Games). Each packet contains 2.5-3 grams of red powder. Therefore, one Olympic medal requires 5 grams of red powder. And today, we simply don't have that amount of red powder.
   Therefore, we must postpone this research until we know how to obtain the necessary quantities of red powder.
    We estimate that a research program like this would require approximately 100 grams of each powder (red and white) per year. If we assume that one person can obtain an average of 5 grams of powder, then we would need to find 20 people capable of obtaining the powders, who would work exclusively on this program.
    Now, however, there is hope that this problem can be solved using the property we discovered of the Red Powder to transfer its properties to other substances.
("Transfer of the properties of Red Powder to other substances =>"). In this case, the powders will not be consumed. However, this issue requires further research.




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