Your brain has 86 billion neural cells and 85 billion glial cells. They all make computations. Glial cells are crucial to information processing through multiple paths of neuron-glia communication. Glial cells do not exhibit the dramatic membrane voltage changes that make neurons so easy to study with microelectrodes. Ependymal glial cells can transform into functioning neurons even in adult brains.
They all generate known thought and speech. Your brain operates on its quantum level. It processes thoughts and emotions on a triune basis with binary interactives. Your brain’s fundamental level generates and controls your brain’s quantum level. Your brain’s classic level is the result. Your brain’s classic level produces deterministic algorithms to create thought (I think; therefore, I am)—ditto for speech.
A conscious mind grows and matures over time. The storage capacity of your hard drive grows as you interact with new information. Your memory capacity increases accordingly. You grow it yourself. The growth in memory space is exponential. When the growth of your information space slows down, your stored information compacts, this allows your information storage space to be almost infinite. But things happen after storage, e. g.: Periodic deletion of random information. Periodic allocation of random information to random hidden folders. Some data is sorted out, even if you have a photographic memory. Knowledge isn’t lost; it just gets misplaced. Sometimes lost information is replaced with fabricated data. Recall, at times, is flawed. Some people have better recall capabilities than others. Some people can store only a couple of terabytes. Others can store up to +/- 25,000 terabytes. Memory is stored in brain elements called dendritic spines. There are about 10 billion pyramidal cells in the cerebral cortex, each containing about 10 thousand spines. Thus we can estimate that the human brain’s memory capacity is about 100 Teraspines.
The human brain stores information differently than today’s computers. The brain’s coding is on a triune-binary interface system. The code is written in a trinitarian-binary language (Three are one, one is three, interfacing with two). This code lives on the boundary of each level of physics (Fundamental, Quantum, and Classic). Each neuron in the human brain is connected to a thousand or so other neurons, making about a trillion connections. A single human neuron can be up to 4 feet long. There are 100 billion neurons, and each neuron forms about 1000 connections with other neurons. Neural networks combine, creating a single neuron involved in many memories. Memories are stored bytes of our consciousness. A brain cell can’t divide, but it can be replaced. There are neuronal stem cells in the brain: undifferentiated cells capable of growing into new neurons. Stem cells don’t exist everywhere in the brain. Stem cells can’t always migrate to replace damaged or destroyed neurons anywhere in the brain.
About 75 percent of the brain is made up of water. The human brain will grow three times its size in the first year of life. It continues to grow until you’re about 18 years old. Our brain uses 20 percent of the oxygen and blood in our body. The human brain gets smaller as we get older. Dreams are a combination of imagination, phycological factors, and neurological factors. Your brain is about 2% of your body mass but uses up to 20% of its blood. Long-term memories are not stored in one place but are spread throughout the cortex.
Human memories are stored in trinitarian-digital code. You recall them in wave signal formats. There are three kinds of neurons: 1. Motor neurons for conveying motor information. 2. Sensory neurons: for conveying sensory information. 3. Interneurons: convey information between different types of neurons. There are seven types of Glia cells: Four are CNS (Central Nervous System ), and three are PNS (Peripheral nervous system). These seven types run the pain show.
In your brain, billions of neurons function as a single entity. Brains cells come in a variety of shapes and sizes. They express different neurotransmitters and transmitter receptors. No two neurons are exactly alike. Everyone’s brain works slightly differently. This is why people have other skills, talents, and personalities.