Unlock a New You

Get your “Guidebook to Mindfulness” right now.

Elevate your Tuesdays with amazing ideas, actionable tools, and exclusive insights from our Professional Collective.

Join a community of

48868+
today

Always Inspiring. Always Useful. Always Free.

ns-img
Continue to main website

Nervous System

The Simple Science

The nervous system is like the body’s communication network. It sends messages between the brain and the body, helping us respond to what’s happening around us. When we face stress or danger, it’s the nervous system that kicks things into high gear, triggering the “fight or flight” response. This is great for short-term challenges, like dodging a falling object, but if we’re constantly stressed, this system can stay in overdrive, which isn’t good for us.

To make the nervous system work for us, it’s all about finding balance and teaching our body to switch from the high-alert mode to a more relaxed state. This is where practices like deep breathing, mindfulness, and gentle exercise come into play. When we take deep, slow breaths, we send a signal to our brain that everything is okay, which helps calm the nervous system down. Engaging in mindfulness practices helps us stay in the present moment, reducing the brain’s tendency to trigger stress responses for things that aren’t immediate threats. Regular gentle exercises, like yoga or walking, keep our body and mind in a state of equilibrium, reducing the overall stress on our nervous system. By incorporating these practices into our daily routine, we can train our nervous system to switch more easily between alertness and relaxation, helping us feel more balanced and at ease in our day-to-day life.

The Deeper Learning

The nervous system is a complex, highly organized network of cells and nerves that coordinates actions and sensory information by transmitting signals to and from different parts of the body. It is fundamentally divided into two main parts: the central nervous system (CNS) and the peripheral nervous system (PNS).

The central nervous system is comprised of the brain and spinal cord. The brain, the control center of the body, processes and interprets sensory information, orchestrates thoughts, emotions, and memories, and coordinates movement. It consists of various parts, including the cerebrum (responsible for higher cognitive functions like reasoning, planning, and language), the cerebellum (which handles coordination and balance), and the brainstem (controlling involuntary functions such as breathing and heart rate). The spinal cord acts as a conduit for signals between the brain and the rest of the body, also housing circuits that control reflex actions independently of the brain.

The peripheral nervous system includes all the nerves outside the CNS. It is divided into the somatic nervous system, which mediates voluntary movements and transmits sensory information to the CNS, and the autonomic nervous system, which regulates involuntary bodily functions like heart rate, digestion, and respiratory rate. The autonomic nervous system is further subdivided into the sympathetic and parasympathetic nervous systems, which work in opposition to each other to maintain the body’s homeostasis. The sympathetic nervous system prepares the body for stressful or emergency situations (fight or flight response), while the parasympathetic nervous system conserves energy and facilitates rest-and-digest activities.

Neurons, the cells that transmit nerve impulses, are the primary components of the nervous system. Each neuron consists of a cell body, dendrites (branch-like structures that receive messages from other neurons), and an axon (a long, thin fiber that transmits signals away from the cell body). Neurons communicate through synapses, where the axon terminal of one neuron interfaces with the dendrite of another. Neurotransmitters, chemical messengers released at synapses, facilitate this communication by crossing the synaptic gap and binding to receptors on the receiving neuron.

The nervous system’s functioning is characterized by its ability to receive stimuli from internal and external environments, process this information, and initiate appropriate responses. This involves complex pathways of signal transmission, integration, and processing, which are essential for survival, adaptation, and interaction with the environment.

Print

Glossary

0 Comments
Inline Feedbacks
View all comments