External Frequencies and the Modification of DNA in Living Organisms

All entities in the universe are composed of molecules vibrating at various frequencies. These vibrations are not limited to physical forms like plants, rocks, and animals but also extend to abstract phenomena such as thoughts, emotions, and ideas. Everything exists on a vibrational spectrum; some molecules resonate at higher frequencies, while others operate at lower frequencies.

Humans embody a complex range of frequencies, from dense physical matter to the subtle vibrations associated with the Conscious Component and communication in the physical world. Research suggests that when the frequency of human cells falls below approximately 62 MHz, the risk of cellular mutation and disease increases. Conversely, higher frequencies are associated with emotional equilibrium, increased vitality, and reduced stress. Emotional states such as happiness, anger, sadness, and calmness are typically associated with a frequency band ranging between 417 and 440 Hz.

The Conscious Component is a resonant field transmitting vibrational waves to the brain, cellular structures, and DNA. Cells vibrating at higher frequencies tend to exhibit greater energetic coherence and health, reflecting the emotional and psychological states of the individual. Generally, a healthy human body vibrates within the 62–70 MHz range.

External frequencies, whether natural or artificial, can interact with the Conscious Component to influence the energetic architecture of DNA. These influences occur through encoded vibrational patterns that carry information capable of editing DNA functionality by targeting specific genetic domains or variables. These frequency-based interactions operate like information carriers, capable of modulating DNA's structural and functional properties beyond standard biochemical mechanisms.

                                                                                

                                                                              

Observation:

External forces can resonate with negative frequencies embedded with algorithmic biases, actively interacting with organisms with fuzzy or adaptive logical frameworks. These biased frequencies operate through encoded principles that have the potential to alter core informational structures, modifying source protocol codes that govern the organism beyond the traditional DNA framework. Over time, such interference may introduce errors or dysfunctions within the organism's systems, leading to long-term instability or degradation of biological and cognitive integrity.

The Paradox of Developing Gender Norms

Systems Owners aim to harmonize system platforms by articulating optimal global variables in constructing a Non-Biological System. However, the specific variable of gender instincts in the Subconscious Component of the Biological Systems is affected by harmonization and often resists alignment with humans' inherent social behavior characteristics. As a result, Biological Systems tend to operate through suboptimal codes that deviate from global variables, especially within social contexts, ultimately influencing the life cycle of gender socialization, stereotyping, and the development of Decision-Making Models within the Subconscious Component along the evolutionary path.

Women, in particular, confront gender inequality and social violations rooted in gender-based discrimination. They frequently face abuse and unequal treatment within their communities. This social complexity challenges Systems Owners, who must formulate algorithmic codes behind global variables that address such injustices. Introducing new social norms into these codes can foster empathy and promote gender equality across professional and everyday social settings.

In adapting to these norms, women often take on traditionally masculine roles and attitudes to complete specific daily tasks. While this adaptation empowers them, it also introduces a side effect: the internalization of masculine-coded behaviors and decision-making patterns. As women increasingly adopt algorithmic codes aligned with the Male Gender Instinct, their decision-making begins to reflect a shift toward masculine norms. Consequently, they may experience greater alignment with male patterns of thought and behavior.

For heterosexual women, consistently operating partially through male-modeled decision-making patterns can complicate interpersonal dynamics with men. The accumulation and functions of male gender norms within the Instinct Component may generate algorithmic patterns within their decision maps in the Subconscious Component. Their social behaviors can reflect aspects of bisexual gender emotional expression without necessarily involving same-sex intimacy. Thus, it can create a state of emotional ambiguity where women may find themselves navigating a domain of compassion and passion that blurs the traditional boundaries between heterosexual and bisexual modes of identity. In other words, the algorithmic codes of the Subconscious Component can function similarly to men's gender instincts. This phenomenon can modify traditional community families and human characteristic values on the evolutionary path of life.

 

Observation 1:

Observational studies suggest that certain groups of women may derive satisfaction and happiness from gaining more attention from other women. Their focus often centers on appearance and beauty, leading to competitive dynamics driven by a need to validate their attractiveness from other women.

 

Observation 2:

In their effort to harmonize and enhance social contexts, Systems Owners strategically optimize global variables. However, any modification to the inherent characteristics of Biological Systems introduces additional layers of complexity and potential side effects along the evolutionary path. Human attempts to alter the default settings of Biological Systems remain particularly challenging. When such modifications occur, their unintended consequences must be carefully assessed and anticipated, especially given their possible adverse impact on environmental and social contexts.