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The number of virtual neurons or connections between neurons determines how effective brains are.
Every neuron connection in the brain is a different state of neurons. The states of neurons are the virtual neurons. When a neuron uses a certain neural connection, it turns into a different neuron than if it uses some other neural connection.
The neural connections are making it possible that neurons can interconnect with each other. That means neurons have different states. And every state is a different neuron. The states of neurons are forming virtual neurons that are the thing that makes us think.
When we are talking about the power of the brain and the number of neurons we should calculate virtual neurons rather than physical neurons. If we have the neuron with 500 loop connections. That means we have 500 neurons. The number of virtual neurons is the thing that makes the brain's ability to think. The loop connection means that the axon is connected with the same neuron where it begins.
The interesting thing is that there is the theoretical possibility that the three neurons can make brains that have the same capacity as human brains. Those miniature brains require only billions of axon connections between those neurons. Nanotechnology makes it possible to create the carbon atom chains that can make those connections possible.
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Insects are using their brains more effectively than mammals.
The insects are amazing because their brains are so effective. The insects have only a few neurons, but they can make many more things with their neurons than any mammal can. When we are talking about the number of neurons we can talk about the number of physical neurons. But the number of physical neurons is not everything when we are talking about the effectiveness of brains.
Almost more important than the number of physical neurons is the number of axon connections between those neurons. The special thing in the brains of insects is the neurons are connected with themselves. So there are the closed neural circuits called synaptic loops where the axon connected itself with the same cell where it begins. And that makes insects resistant to nerve gasses and botulinum. Those synaptic loops guarantee that the neuron has always free axon or synaptic connections.
Normally when a neuron resends the information over the synaptic connection it uses neural transmitter chemicals for sending information over the small hole between the axons. When the neuron uses those neurotransmitters that are acting like chemical qubits it gets feedback from receiving neuron. The feedback is that the neuron received the neurotransmitter. The feedback forms when a certain enzyme destroys the neurotransmitter chemical. Then the receiving neuron sends information that the neurotransmitter is done its mission.
And receiving neuron is ready for the next mission. If that signal is not coming the transmitting neuron translates that the neurotransmitter has not reached its goal. And then that neuron resends the neurotransmitter. That happens until the mission is done. The problem in the human nervous system is that another neuron nulls the neuron. And if the synaptic hole is busy the neuron cannot be null.
The nerve gas or "G-agent" denies the action of the enzyme that destroys the neurotransmitter. That thing keeps the neuron busy. Because there is no signal that the cutter-enzyme is doing its job, the neuron just sends signals simultaneously until it gets information that the mission is done.
And when the neuron always gets new duties or signals that it should resend that turns the information in the nervous system into a mess. That thing is the thing that causes death. The neural loop in the neurons guarantees that the neuron can null itself as I wrote earlier. The neural loop means that the insects do not get drunk.
The thing that makes neurons special is that whenever a neuron uses some connections. It turns into a different neuron. So the axon connection allows interconnecting neurons to virtual neurons. When we are talking about neurons as data handlers, we should calculate virtual neurons rather than physical neuron cells.
So if we have a neuron that has let's say 500 neural loop connections, that means there are 500 neurons. That ability makes it possible that one neuron can turn into 500 virtual neurons. Even if the neuron has one memory block those neural connections can make many different variations about those connections. The reason why the brains of insects are interesting. Is that those small animals can make many things by using small and compact brains. Those neurons can be cloned and they can use to control small drones.
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