Collective trait of humanity

– Processing in the Spinal Cord and Cerebellum: The spinal cord processes this electrical signal and, seeing that it does not pertain to the immune system, transmits it to the cerebellum. The cerebellum reshapes the signal from the cells according to its muscular database and sends it to the occipital lobe of the left hemisphere.

– Formation of Logical Sensation: The occipital lobe of the left hemisphere creates the dimensionality of the signal received from the cerebellum and transfers it to the parietal lobe of the left hemisphere, which forms a logical type of sensation.

– Correlation Formation: In this way, a correlation is formed between the logical signal sensation of the left hemisphere and the sensory signal of the right hemisphere. Thus, we correlate the sensory sensation relative to an external stimulus (sensory signal from the right parietal lobe based on cellular electromagnetic potential) with a logical signal relative to the internal environment (with a signal in the left parietal lobe created by a muscular reaction on the right).

– Simplification for Understanding: For simplicity in understanding the example, correlate muscular reactions with logical signals, and sensory signals with reactions caused by electromagnetic excitations. And remember, the interaction system has two directions. The logical signal on the left, relative to this example, will in reverse sequence form a sensory signal on the right.

– Signal Reshaping: Due to the structure of cells and their ability to use the first two levels in the psychological hierarchy, it becomes possible to reshape the signal from one chain to another and vice versa through cellular reactions. This signal reshaping is possible thanks to the first database of complex behavior in the form of a tactile sensation zone. The tactile sensation zone forms electrical potential of cellular elements during signal transformation by controlling the electromagnetic circuit.

– Emotional Background: This electrical potential of cellular elements can be denoted as an emotional background. And the emotional background of the parietal lobe sensations is felt as an emotion. Thus, the parietal lobe with amygdalae in pairs forms signals in the parietal lobe based on its database. By reading the electrical potential of each cell through the expression of cellular receptors forming an electromagnetic field, and as a result, forming emotions.

– Logical Neuron Excitation: Based on this, if a logical neuron is excited, it will inevitably create an emotion and a corresponding sensory signal related to the emotion. And if a sensory neuron is excited, it will inevitably create a sensation and a corresponding logical signal related to this sensation. And all this is thanks to the database of complex behavior in the form of a tactile sensation zone.

2. The Second Branch of the Signal and Instinctive Behavior Formation

– Parallel Processing: In parallel with the first branch, the sensory signal from the parietal lobe is also sent to the reptilian brain. The reptilian brain, based on its database, invokes a logical signal in the left hemisphere relative to the sensory signal of the right hemisphere.

– Instinctive Behavior Formation: This logical signal invokes simple behavior. It first goes to the left occipital lobe, then is processed by the cerebellum, which transfers it to the spinal cord. The spinal cord, using the branches of the nervous system, sends signals to corresponding cells, invoking an unconditional conditioned reaction in the form of muscle contraction. Thus, instinctive behavior is formed, invoked by the reptilian brain.

– Instinctive Behavior Definition: Instinctive behavior is a muscular reaction to a sensory signal in the parietal lobe, provided that the sensation is in the database of the reptilian brain. Then, a conditionally unconditional reaction is created, and based on it, with the help of amygdalae and the tactile sensation zone, a sensory signal is formed in the right hemisphere.

– Correlation of Muscular and Sensory Reactions: So, what happens is that a sensory signal, invoked by the excitation of a sensory neuron on the right, is processed by the reptilian brain. The reptilian brain invokes a corresponding logical signal on the left. Correspondingly, to the logical signal on the left, muscular reactions occur on the right. As a result of muscular reactions on the right, cellular potential is created, relative to which a sensory signal is created on the right with the help of an emotional database and amygdalae. Thus, our muscular (instinctive) behavior is correlated with our sensations.

– Different Bases for Signal Formation: Consequently, the first branch of the signal is formed based on the emotional database, and the second branch of the signal is formed based on the instinctive database. Thus, instincts (muscular behavior) and emotions (electrical potential) are formed. And immediately note that if a sensation does not find an association in the database of the reptilian brain, then instinctive behavior, which underlies mimicry, postures, and gestures (non-verbal interaction), is not created. Simply put, if there is no association in the instinctive base, then there is no instinctive behavior.

Understanding the Third Level of the Hierarchy and the Role of the Spine in the Subconscious

Now that we understand how the third level of the hierarchy is formed, and that logical signals shape emotions while sensory signals shape instincts, both contributing to a complex behavioral model, we can explore how organisms are managed through these complex behavioral models via psychological processes. These processes form our psyche. We’ll start with simple psychological processes like consciousness and the subconscious, then move on to higher psychological processes such as super-consciousness and the unconscious, and conclude with a description of the collective psychological process.

The Hypothesis: The Spine and the Subconscious

Let’s hypothesize that the spine is responsible for the subconscious. Many might find this idea vague, as numerous psychological and psychophysiological theories offer different interpretations of the subconscious. However, I ask you not to jump to conclusions and to consider this hypothesis as a possible fact – or perhaps not.

What We Know About the Spine and the Subconscious

Let’s begin with what we know about the spine. Here are some definitions from a search engine:

The spine is a long, tubular structure made of nervous tissue, part of the central nervous system. It runs inside the vertebral column, connecting the brain to the rest of the body and transmitting signals in both directions. The spine also controls simple reflexes and is responsible for coordinating movements such as walking and urination.

From this definition, we understand that the spine is nervous tissue, part of the CNS, connects the brain and body, transmits signals in both directions, controls simple or, according to our theoretical model, primitive reflexes, and is responsible for coordinating movements. Let’s supplement this understanding with information about the immune system’s connection to the spine from a search engine:

The spine and the immune system are closely interconnected: the spine transmits nerve signals that regulate immune function, and spinal injuries disrupt this connection, leading to decreased immunity. At the same time, immune cells in the central nervous system (CNS) and its membranes play a role in protecting against infections, but in diseases like multiple sclerosis, they can begin attacking the brain and spinal cord’s own tissues.

Possible Pathways to Autoimmunity

If we think about it, there are likely two pathways that could lead to this:

– Cellular Revolt: Cells are alive, and as a result of their exploitation, they might revolt against the exploiters. But I’m just joking to distract you a bit. In reality, it’s quite simple.

– Gene Mutation: More likely, due to a gene mutation in cells, the immune system becomes foreign to them, or more precisely, the elements involved in its management and regulation, namely the spine and brain. As a result of a mutation, presumably linked to the modification of an immune cell gene responsible for proving the belonging of a certain type of cell to a certain immune system, the fact of relationship is not confirmed (it differs). Consequently, the immune cells that the spine and brain try to control see them as foreign manipulators and attack them. This could be the influence of viruses or other factors causing changes in cell genes, affecting immune cells. But the fact that this can be cured by genetic modification of immune cells using a specially developed drug to restore the immune cell gene sounds like an axiom. As a result, it is possible to restore the confirming gene of relationship to the immune system in immune cells, and immune cells will stop attacking their manipulators in the form of the spine and brain. So to speak, reconcile them.

The Spine’s Role in the Subconscious

Now, let’s return to our hypothesis that the spine is responsible for the subconscious. The spine, as part of the CNS, plays a crucial role in transmitting signals between the brain and the body. It controls simple reflexes and coordinates movements, which are fundamental aspects of our behavior. If we consider the subconscious as the part of the mind that operates below the level of conscious awareness, controlling automatic and instinctive behaviors, then it’s plausible to hypothesize that the spine, with its ability to transmit and regulate nerve signals, could be the physical basis for the subconscious.

– Automatic Reflexes and Instincts: The spine controls simple reflexes, which are automatic responses to stimuli. These reflexes are similar to instinctive behaviors, which are innate and do not require conscious thought. The subconscious mind is often associated with these automatic, instinctive behaviors.

– Signal Transmission and Regulation: The spine transmits signals between the brain and the body, regulating various functions. This transmission and regulation could be seen as the subconscious mind’s way of managing the body’s responses to internal and external stimuli without conscious awareness.

– Immune System Connection: The close interconnection between the spine and the immune system suggests that the spine might also play a role in regulating immune responses, which are often automatic and occur without conscious thought. This further supports the idea that the spine could be the physical basis for the subconscious.

Conclusion

While this hypothesis is speculative and requires further research and evidence to support it, it offers an interesting perspective on the relationship between the spine and the subconscious. By considering the spine’s role in transmitting and regulating nerve signals, controlling automatic reflexes and instincts, and its close connection to the immune system, we can begin to see how it might be responsible for the subconscious aspects of our behavior. Further exploration of this hypothesis could lead to a deeper understanding of the mind-body connection and the role of the subconscious in shaping our behavior and experiences.

Connection Between the Spinal Cord, Immune System, and Subconscious: Synthesis of Information

Connection Between the Spinal Cord and the Immune System

From the description, we understand that the spinal cord regulates the body’s immune function by transmitting electrical signals. Injuries to the spinal cord disrupt this connection, leading to a decrease in immunity. Since the spinal cord controls reflexes (conditioned and unconditioned behaviors of cells) through electrical signals, it also manages immune cells that play a role in protecting against infections. However, in diseases like multiple sclerosis, immune cells may begin to attack the body’s own brain and spinal cord tissues, likely due to damage to the gene responsible for confirming the relationship of immune cells to the immune system controlled by the spinal and cerebral cortex.

Synthesis of Observations on the Spinal Cord

The spinal cord:

– Is nervous tissue that controls cells and their reactions (primitive reflexes) through electrical signals.

– Is responsible for the vital functions (immune system) of the body’s structures or elements.

– Together with the cerebellum, is responsible for coordinating movements by controlling muscles, as muscles are conductors made of cells.

– Connects the brain and the body (the structure of the organism).

From this, we can form a brief definition within our theoretical model: The spinal cord is nervous tissue that connects the brain to the body, transmitting signals to and from the body to the brain. As part of the nervous system, it manages the body’s vital functions (immune system, “cells” as elements of the organism) and controls primitive reflexes (reactions) of cells.

Definition of the Subconscious from Search Engines

The subconscious is a hidden level of the mind that controls automatic processes such as breathing and walking, stores experiences, habits, and emotions, and influences our thoughts and behaviors even when we are not aware of it.

Understanding the Hierarchy of Levels

Now that we know what the spinal cord is and understand the formation of the first three levels of the hierarchy – from primitive reflexes to simple behavior, and from simple behavior to complex behavior – the next level is simple mental processes that manage the levels below them. Consequently, let’s correlate the obtained information about the levels with information about the spinal cord and the definition of the subconscious from open sources.

Simplified Understanding: Comparing the Definition of the Subconscious with the Functions of the Spinal Cord and Our Theoretical Model

The subconscious is:

Starting with this excerpt from the definition: “A hidden level of the mind that controls automatic processes such as breathing and walking.” The spinal cord, as an organ composed of nervous tissue with processes hidden from the conscious mind, is responsible for the vital functions of the organism. Therefore, it can be assumed that it is responsible for breathing because, without the respiratory process, the vital functions of the organism are impossible, and the respiratory process is automatic for the conscious mind. Additionally, the definition states that the subconscious is involved in walking. Since the spinal cord, in conjunction with the cerebellum, manages movement coordination, and the cerebellum is the database of muscular reactions, and the spinal cord controls electrical signals managing simple reflexes (primitive reactions), it follows that the spinal cord controls walking by managing reactions coordinated through the cerebellum. So far, everything aligns; let’s move to the next part of the definition.

The definition states that the subconscious stores experiences, emotions, and habits. We already know that experience consists of neurons in the frontal lobe of the brain, the formation of which is governed by the second level of the hierarchy, i.e., simple behavior. The spinal cord is involved in the formation of logical neurons. Therefore, if the definition is accurate and our hypothesis is correct, then the spinal cord or subconscious not only participates in the formation of logical neurons but also controls the logical neurons in the frontal lobe, manipulating them as necessary. If we consider that the subconscious also controls emotions, and from the perspective of the psychophysiological model, emotions are a reaction of complex behavior to logical signals or the excitation of logical neurons, it follows that the subconscious controls the model of simple behavior. Thus, the subconscious is responsible for the formation of experience and hidden processes related to the mind. Habits are reactions to frequently repeated stimuli in the form of neuronal excitations that occur due to the frequent repetition of associative moments related to them. This again brings us to the conclusion that neuronal excitation pertains to simple behavior, except for the location of the association in the reptilian brain’s database. Since this would form a model of complex behavior and transmit a signal to another mental process, the subconscious manages simple behavior, which is responsible for storing experience, invoking emotions, and habits. We hypothesize that the spinal cord’s involvement in the formation of logical neurons and its control over the entire electrical structure of the organism makes it the hidden worker of our organization called the organism, whose work can be compared to a subconscious mental process. Indeed, the subconscious is not only the spinal cord, but the spinal cord is the foundation of the subconscious. The work of the spinal cord can be compared to the work of a process in a computer.

The definition concludes with: “also influences our thoughts and behavior, even when we are not aware of it.” The subconscious and the spinal cord control the vital functions of the organism; without their hidden management, it is impossible to imagine how overwhelmed the mind would be with tasks related to maintaining the organism’s operation. Since the spinal cord is presumably the subconscious or its main part and controls the vital functions of cells, it can be hypothesized that any signal transmitted to the brain from cells and back, processed by the spinal cord, is compared with an immune database regarding its relation to it. That is, every signal is compared with the immune database and modified if necessary to avoid harming the organism. Consequently, the reaction of cells and conditioned behavior may change, thereby influencing our thoughts, since thoughts are chains of sequential signals processed by mental processes. And the reactions of cells are a direct part of the chains of any process in the organism. Next, we will describe this hypothesis in more detail.