Researchers noticed that the neurons can travel in brains. That means a neuron can begin its career in a different place where it ends its career. This thing can benefit in the cure of brain cancer or accidents. If the destruction of brain cells is very large-scale
There is the possibility to use cloned neurons where the memories are transferred to replace the destruction in brains. The problem with brain damage is that the memory blocks of neurons are gone. And maybe this kind of research makes it possible to minimize brain damage's effect on a victim's life.
The position of neurons in brains is not necessary where neuron ends its career. That means that neurons can travel inside the brain. That means when the health or speed of a neuron changes it needs to find a new position.
If there are lots of synapsis in the neuron, that makes it a little bit slow. A large connection number means that the neuron must look for the right connection for a long time. That kind of neuron is suitable for the slow and peaceful thinking processes. But the reflexes require fast-operating neurons. Those neurons have only a few connections.
And they are fast-operating. The brains must find a balance between those two neuron types. Reflexes are important.
But the brains must also create new things. For that kind of process, brains must interconnect neurons and connect memories with abstract images. Imagination is another name for visual abstraction. That thing makes humans superior to other species.
The neuron can move physically or virtually. In the physical model cell, itself moves. In the virtual version of the neuron's movement the neuron transports memory to another neuron. And reprogram the target neuron. Or neuron renews its connections.
If the neuron itself moves helper cells are moving neurons to another place. Another way is that the neuron changes its synaptic connections. Those synaptic connections can be extremely long. And that means the missions that neuron handles are in other brain areas than the neuron itself locates.
The third way is that the neuron transfers its memory blocks to another neuron. And then that neuron replaces those memory blocks by using new memory units. The key element in a neuron's identity is memory. The memory black determines the skills and position that neuron has. The mission of a neuron is stored in the memory of the neuron. And connecting those memory blocks neurons can create virtual neurons.
So that means the number of physical neurons is not telling the entire truth about the abilities of the brain. When we are calculating neurons we can say that some bug has only ten physical neurons. But those neurons might have tens or even hundreds of different states. The neurons of the bugs are connected to themselves by the loop synapsis.
Every track of those loop synapsis determines the new state of the neuron. And connecting those tracks using them at the same time. And interconnecting neurons means that the bug might have thousands of states in its neural system. And the states of neurons are the thing that determines the intelligence level. Each state of a neuron is acting like it will be an independent neuron. And when we are calculating neurons we should calculate the states of neurons rather than physical neurons.
The human brains have billions of states. The neurons can make loops, they can interconnect. And they can also transfer their memory blocks to new neurons.
So neurons are teaching each other. That ability makes neurons more interesting than we even think. The memory blocks are always acting similarly. And some of them are handling memories. The ability to transfer memory blocks across neural systems makes it possible to transfer memories between individuals.
https://scitechdaily.com/thousands-of-different-scents-scientists-solve-a-30-year-old-mystery/
https://scitechdaily.com/where-neurons-begin-in-the-brain-isnt-necessarily-where-they-end/
Image: ) https://www.piedmont.org/living-better/10-fun-facts-about-your-brain
https://designandinnovationtales.blogspot.com/
Comments
Post a Comment