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Unit 3: Homeostatis
Homeostasis involves maintaining internal stability within the human body through complex feedback systems. The nervous and endocrine systems play crucial roles in this process. The nervous system, comprising the central and peripheral components, transmits electrochemical messages via neurons and glial cells.
Apri
Unit 3: Homeostatis Endocrine System (Reproductive Hormones) Sex Hormones Gonads Endocrine System (Hormones & Feedback) Glands Adrenal Thyroid Pituitary Stimuli Neural Humoral Hormonal Water-Soluble Steroid Excretory System (Water Balance & pH Regulation) Diuretics ADH Water Balance Endocrine System Nervous System Excretory System (Kidney & Urine Formation) Urine Formation Secretion Reabsorption Filtration Excretion Organs Urethra
Bladder
Ureter
Kidney
Nephron
Peritubular Capillaries
Collecting Tubule
Bowman's Capsule
Glomerulus
Renal Vein
Renal Artery
Renal Pelvis
Medulla
Cortex
Urine Uric Acid Urea Nervous System (Signal Transmission) Synapse Neurotransmitters Inhibitory Excitatory Polarization Action Potential Hyperpolarization Repolarization Depolarization Resting Membrane Potential Sodium Potassium Pump Nervous System (Structure/Function) Glial Cells Neurons Motor Inter Sensory Neurilemma Nodes of Ranvier Schwann Cells Myelin Sheath Axon (Terminals) Dendrites Hormones Electrochemical Messages Nervous System (CNS/PNS) Peripheral Sensory Nerves Motor Nerves Autonomic
Parasympathetic
Sympathetic
Somatic
Central Spinal Cord Brain Hindbrain
Midbrain
Forebrain
Homeostasis & Human Body Feedback System Positive Negative Thermoregulation
Effectors Integrators Sensors