lab 51: Breathing and Respiratory Volumes
thoracic cavity increases during inspiration by contraction of inspiration muscles or diaphragm. External intercostals help widen the thoracic cavity. Sternum and rib cage elevate because of contractions of sternocleidomastoid, scalenes, pectoralis minor, and intercartilaginous part of internal intercostals.
Mechanism for inspiration
cannot be calculated with a spirometer
calculate functional residual capacity using data obtained from respiratory volumes
IC = TV + IRV
calculate inspiratory capacity using data obtained from respiratory volumes
VC-(TV+ERV) = IRV
calculate inspiratory reserve volume using data obtained from respiratory volumes
Volume of air in addition to tidal volume that leaves the lungs during forced expiration
expiratory reserve volume
volume of air that remains in the lungs following the exhalation of tidal volume
functional residual capacity
maximum volume of air a person can inhale following exhalation of tidal volume
inspiratory capacity
Volume of air in addition to tidal volume that enters lungs during forced inspiration
inspiratory reserve volume
1. breathe normally for a few minutes and set the needle to 0 2. at the end of ordinary expiration, place mouthpiece between lips and exhale as much as possible. pinch nose to prevent air from escaping 3. record
measure expiratory reserve volume using a spirometer
1. sit quietly 2. position spirometer dial to 0 3. exhale 3 expirations after inhaling each time 4. divide the total value on the needle by 3 and record as resting tidal volume
measure tidal volume using a spirometer
1. breath normally for a few moments and set the needle to 0 2. breathe in and out deeply a couple times, then take the deepest breath possible 3.place mouthpiece between lips and exhale all air out of lungs slowly and forcefully 4. record
measure vital capacity using a spirometer
interosseous part of internal intercostals depress the ribcage which narrows the thoracic cavity. rectus abdominis and external oblique compresses abdominal viscera forcing diaphragm to ascend and reduce the size of thoracic cavity
mechanism for expiration
volume of air that always remains in the lungs after the most forceful expiration
residual volume
Volume of air that enters or leaves the lungs during one respiratory cycle (one inspiration and expiration)
tidal volume
maximum volume of air that can be exhaled after taking the deepest breath possible
vital capacity
