The neurons are nervous cells which play the central role in generating, holding and transmitting information across the body. The information as we perceive is a physico-physiological aspect of our reaction to an action but it is comprised of a complex set of cytological, electro-chemical and bio-molecular state of entitites. To be specific, the mode of action of neurons can be functionally understood as: The neurons comprise of a complex set of neurological membranes and ion-channels. When a stimulus is experienced by the body/brain, it changes the bio-chemical nature/concentrations of various electrically stimulated ions present inside the neurons and outside their perphery. This causes generation of a local ionic gradient in the neurons which further drives physical activity of the neuron. The neurological membranes play important role in relay of information. These membranes help in relay of these biochemical signals across various neurological membranes and thus transit this information from one neuron to another via a matrix between the two, called synapse. This process takes place in a very small fraction of seconds so that an immediate and appropriate reaction could be made. Thus, a neurological cell holds the information by means of generation of a local bio-chemical potential and ionic gradient and relays/moves this information by means of channelizing these local gradients in the form of electro-chemical signals from one neuron to the other through synapse. Solution The neurons are nervous cells which play the central role in generating, holding and transmitting information across the body. The information as we perceive is a physico-physiological aspect of our reaction to an action but it is comprised of a complex set of cytological, electro-chemical and bio-molecular state of entitites. To be specific, the mode of action of neurons can be functionally understood as: The neurons comprise of a complex set of neurological membranes and ion-channels. When a stimulus is experienced by the body/brain, it changes the bio-chemical nature/concentrations of various electrically stimulated ions present inside the neurons and outside their perphery. This causes generation of a local ionic gradient in the neurons which further drives physical activity of the neuron. The neurological membranes play important role in relay of information. These membranes help in relay of these biochemical signals across various neurological membranes and thus transit this information from one neuron to another via a matrix between the two, called synapse. This process takes place in a very small fraction of seconds so that an immediate and appropriate reaction could be made. Thus, a neurological cell holds the information by means of generation of a local bio-chemical potential and ionic gradient and relays/moves this information by means of channelizing these local gradients in the form of electro-chemical signals from one neuron to the other through synapse..

1. The neurons are nervous cells which play the central role in generating, holding and transmitting
information across the body. The information as we perceive is a physico-physiological aspect of
our reaction to an action but it is comprised of a complex set of cytological, electro-chemical and
bio-molecular state of entitites. To be specific, the mode of action of neurons can be functionally
understood as:
The neurons comprise of a complex set of neurological membranes and ion-channels. When a
stimulus is experienced by the body/brain, it changes the bio-chemical nature/concentrations of
various electrically stimulated ions present inside the neurons and outside their perphery. This
causes generation of a local ionic gradient in the neurons which further drives physical activity
of the neuron. The neurological membranes play important role in relay of information. These
membranes help in relay of these biochemical signals across various neurological membranes
and thus transit this information from one neuron to another via a matrix between the two, called
synapse. This process takes place in a very small fraction of seconds so that an immediate and
appropriate reaction could be made.
Thus, a neurological cell holds the information by means of generation of a local bio-chemical
potential and ionic gradient and relays/moves this information by means of channelizing these
local gradients in the form of electro-chemical signals from one neuron to the other through
synapse.
Solution
The neurons are nervous cells which play the central role in generating, holding and transmitting
information across the body. The information as we perceive is a physico-physiological aspect of
our reaction to an action but it is comprised of a complex set of cytological, electro-chemical and
bio-molecular state of entitites. To be specific, the mode of action of neurons can be functionally
understood as:
The neurons comprise of a complex set of neurological membranes and ion-channels. When a
stimulus is experienced by the body/brain, it changes the bio-chemical nature/concentrations of
various electrically stimulated ions present inside the neurons and outside their perphery. This
causes generation of a local ionic gradient in the neurons which further drives physical activity
of the neuron. The neurological membranes play important role in relay of information. These
membranes help in relay of these biochemical signals across various neurological membranes
and thus transit this information from one neuron to another via a matrix between the two, called
synapse. This process takes place in a very small fraction of seconds so that an immediate and
appropriate reaction could be made.

2. Thus, a neurological cell holds the information by means of generation of a local bio-chemical
potential and ionic gradient and relays/moves this information by means of channelizing these
local gradients in the form of electro-chemical signals from one neuron to the other through
synapse.