This law states that the pressure of a gas decreases as its volume increases, explaining the mechanics of breathing

The left anterior descending artery and the circumflex artery are the two main branches of this major heart artery.

The tunica intima, tunica media, and tunica adventitia are the three layers of a blood vessel wall, also known by this collective term.

This node, the heart's natural pacemaker, is located in the right atrium.

The opposition to blood flow due to friction between blood and vessel walls is known by this term.

These two types of cells make up the alveolar epithelium; one is squamous for gas exchange, the other is cuboidal and secretes surfactant.

This structure, formed from four fused rings of dense connective tissue, provides attachment for heart valves and acts as an electrical insulator.

This type of capillary, found in the liver and bone marrow, has large fenestrations and a discontinuous basement membrane.

The long refractory period in cardiac muscle, which prevents tetanus, is due to the plateau phase caused by the slow inflow of this ion.

According to Starling's Law of the Capillaries, fluid reabsorption at the venous end is primarily driven by this pressure, created by plasma proteins.

A rightward shift of the oxygen-hemoglobin dissociation curve, caused by increased CO2, acidity, or temperature, goes by this name.

The artery that supplies the distal part of the large intestine, including the descending and sigmoid colon, is this branch of the abdominal aorta.

Unlike arteries, veins of this size (diameter up to 10mm) have a tunica adventitia that is the thickest of the three layers.

Ventricular repolarization is represented by this wave on an ECG.

This hormone, released by the atria of the heart in response to stretching, promotes vasodilation and loss of salt and water to lower blood pressure.