Pulse
pulse
two thick layers; one outer one allows for vessels to stretch and recoil
When lungs recoil, they passively return to their resting state after being stretched during inhalation. This recoil helps to expel air during exhalation by reducing the volume within the lungs, causing air pressure to increase and air to be pushed out.
During exhalation, elastic recoil is responsible for the passive recoil of the lungs and chest wall. As the diaphragm and external intercostal muscles relax, the elastic fibers in the lungs and chest wall recoil, pushing air out of the lungs. This process helps to expel air from the lungs and facilitates the breathing cycle.
Elastic connective tissue is responsible for allowing the lung to expand during inhalation and recoil during exhalation. It provides the necessary elasticity to maintain the shape and function of the lung during breathing.
This process is known as the pulse and is the result of the heart pumping blood into the arteries. As the heart contracts (systole), blood is pushed into the arteries causing them to expand. When the heart relaxes (diastole), the arteries recoil back to their original shape, creating a pulse that can be felt in different parts of the body.
yes
The Elastic Arteries :)
Pulse.The alternate expansion and recoil of arteries create a pressure wave called pulse, that moves along the arteries with each heartbeat.Source: Biology of Humans. Goodenough.McGuire, 34rd Edition. page 222
The recoil of the rifle bruised her shoulder.The recoil sent him flying backwards.
The prefix of "recoil" is "re-".
You can never stop recoil. You can reduce the felt effects, but, the recoil will still be there.