What is a biological neuron network?

The human nervous system communicates the body signals through a complex network of nerve cells or neurons. Sensory neurons are associated with skin, other sensory organs and internal organs of the body. These neurons send messages to the brain that sends a return message with motor neurons to order the body how to respond to the stimulus. The brain, nerve cells and spine are all connected in the biological neural network. The effects on one part of the nervous system will resonate throughout the body. The typical neuron has anywhere from 1,000 to 10,000 possible paths to other neuron. The electrical pulse enters the neuron on one of the dendrites that act as signal receivers. The signal then passes through the core to the respective axon and through the narrows or synapses to connect with the appropriate neuron dendrit. The brain contains more than 100 billion neurons, all of which are created in early childhood and adolescence.

Biological neuronThe network transmits signals as electrochemical pulses from one neuron to another. The same principle applies to the connection of neurons as for electrical connection - there must be a complete circuit from one terminal to the other for the transmission of energy or pulse. Afferent neurons, interneurons and eperential neurons cooperate to create a neuron district; Interneurons are cells placed in the brain and spinal column that transmit messages from afferent neurons to effective neurons. The interneurons located in the spine column are responsible for starting reflective actions such as myostal reflex. These reflective actions are not controlled by a conscious idea.

less than 1 percent neurons in the biological neuron network and are bipolar - there is only one way. Motor neurons make up 9 percent of the total amount of neurons and have multiple branches leading from one cell to another. The remaining majority of neurons are interneurons and are placed exclusively in the brain and spinal cord or in central nervousm system.

motor neurons act in groups rather than individual neurons - for example, in skeletal muscle contraction. When the brain sends a signal to shortening muscles, motor neurons that are in harmony in the muscle, the fire in the sequence. The large component of strength training includes training of these neurons to synchronize their shooting and thus increase the efficacy of muscle contraction.