This is the primary mechanism used by the body to counteract a change and bring a variable back to its ideal or normal range

This is the electrical potential across the plasma membrane of a non-conducting neuron, typically measured at approximately -70 mV

This tissue type consists of unmyelinated neurons and can be found around the outside of the brain and forms an H-shaped core of the spinal cord

These two antagonistic hormones, secreted by the islets of Langerhans in the pancreas function to regulate blood glucose levels

This branch of the autonomic nervous system is responsible for the "fight-or-flight" response, dilating pupils and increasing heart rate when there is a perceived threat

This system controls slower responses, like growth or changes in your body during puberty

During an action potential, the rapid opening of voltage-gated channels allows these ions to rush into the axon, making the inside temporary positive

This tissue protects the central nervous system by preventing the direct circulation of blood through the cells of the brain and spinal cord

Produced by the adrenal cortex, this steroid hormone helps the body manage long-term stress by increasing blood sugar levels

This is the brief period immediately following an action potential during which a neuron cannot fire another impulse, ensuring the signal travels in only one direction

This mechanism works to amplify, strengthen or increase a change in a variable until an endpoint is reached

This fatty insulated layer, formed by Schwann cells in the peripheral nervous system, increases the speed of nerve impulse conduction

When we divide each hemisphere of the cerebral cortex, this structure receives and analyzes visual information, and is needed for recognition of what is being seen

The sympathetic nervous system works with this structure to prepare the body for a short-term stress response by increasing metabolism

These are the classifications of the two types of hormones in the endocrine system