Watch World About Us A nervous system funny video

A nervous system funny video

The nervous system plays a key role in our health and wellbeing.

It processes sensory information, detects emotions, and regulates body functions.

And yet, how exactly do we understand what our nervous system is doing?

The brain is a complex organ that includes neurons, synapses, and other nerve cells that connect different parts of the body.

In its most basic form, the nervous system consists of neurons that receive electrical signals from the brain.

These signals travel from one neuron to another, and the information that they contain are processed by different brain cells.

In this case, we’re looking at the neurons that send a message to the nervous systems main brain cells (the somatosensory cortex), the cells that process sensory information from the rest of the brain, and which in turn process the information from those cells.

These are called neurons, and we know that they function in a wide variety of ways.

In fact, we can call these different parts in our brain parts of different types.

There are neurons that fire when we hear sounds, there are neurons which fire when the brain is in a particular state of arousal, and there are other neurons which, when activated, send signals to various parts of our nervous systems.

For example, there’s a lot of activity in the middle of the somatosensor cortex (the part of the neural network that controls motor control), but it doesn’t fire when you’re in a stressful situation, because there’s nothing to activate it.

And then there are those neurons that, when they’re activated, fire when there’s an orgasm in the brain (the pleasure circuit), and there’s neurons that release a chemical that stimulates sexual arousal (the arousal circuit).

In addition to these neurons, there is another part of our brain called the amygdala that is also involved in the control of emotional states.

The amygdala is also known as the “emotional center of the mind” because it plays a role in many aspects of emotion, including our experience of fear and anxiety.

The brain also has other parts of its nervous system, called the somatic cortex.

These are the parts of nerves that connect the brain to other parts, such as the eyes, nose, ears, and so on.

When we talk about the brain we’re talking about the structures that connect our body to our body, including the spinal cord.

The word “brain” is used to describe the structures in the body that connect nerves to each other and make them function properly.

When there’s any kind of disruption in the wiring between different parts, that can cause damage to nerve cells, which in the nervous nervous system can lead to symptoms of various conditions, including paralysis, paralysis-like symptoms, and even death.

What’s so special about the nervous System?

There are a few things about our nervous nervous systems that make it so special.

First, there can be a very large amount of cells that control different parts.

This means that there are many cells that are controlling various parts at the same time.

For example, neurons that are firing when we’re listening to music control different nerve cells in the ears, which can cause a change in the sound we hear, or the way we perceive our surroundings.

Second, there may be some connections that connect parts of neurons.

This is particularly true in the parts that fire together.

For instance, we have neurons that communicate with each other by firing together, or sending messages from one part of a neuron to the other.

This can cause the activity of one part to be stronger than the activity in another part, and this can cause symptoms such as dizziness or lightheadedness.

Third, there might be some proteins that connect neurons.

These proteins may act like switches, so that one part will fire when one part is stimulated by a stimulus.

For a long time, scientists thought that protein activators were the only thing that activated certain types of cells in a neuron.

But there are proteins that activate many different types of neurons at the molecular level.

This may be why, for example, certain types are more active when we take an antidepressant drug.

In addition, there exist many types of receptors that control a neuron’s activity.

For one, there could be receptors that are activated by a chemical called neurotransmitter, or receptors that can be activated by another chemical called an agonist.

These kinds of receptors can then cause some kind of change in how neurons are firing.

For a long while, scientists believed that proteins that are responsible for these kinds of changes were the ones that caused paralysis in humans.

However, recent research has shown that these proteins aren’t involved in this paralysis.

In fact, recent experiments have shown that the protein activator of the spinal cords is actually the protein that has no role in paralysis in the human brain.

This protein activater is called a receptor, and it can activate certain kinds of neurons and cause a kind of paralysis.

What this means is that the spinal system isn’t really involved in these kinds the physical symptoms of paralysis,