Breathing rate also influences venous return of blood and lymph. the contraction and relaxation of the skeletal muscles of breathing cause rhythmic while breathing, and this cycle is referred to as the . this action during hyperventilation, venous return of blood and lymph. the action of this mechanism during hypoventilation, venous return of blood and lymph.
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Ответ:
1) Respiratory rate and pattern
2) Respiratory cycle
3) Lymph flow occurs
4) Venous pooling
Explanation:
This question centers on the topic: Respiratory rate and pattern. When respiration is mentioned, the activities mostly acknowledged to it are breathing in and out which are made possible by the contraction and relaxation of the skeletal muscles and the lungs. Ventilation can be said to be normal when the inspiratory expansion and expiratory contraction of the muscles of the chest, occur without efforts and is mostly automatic.
The Respiratory rate and pattern can be observed when the frequency of the inspiratory phase is noted because this phase is active and very easy to count. Also, taking into account the number of breaths taken per minute, is referred to as the Respiratory rate. Observation of the respiratory rate and taking into consideration the inspiratory expansion of the chest cage is done during the respiratory cycle. Two groups of muscles known for the activities of inspiration and expiration while contracting and relaxing, produce a rhythmic respiratory rate and pattern. Lymph flow which occurs during hyperventilation has stopped. A venule is a small blood vessel which is in the microcirculation that accepts deoxygenated blood to return from capillary beds to veins. Venous pooling which is the Venous return of blood and lymph.
Ответ:
Ответ:
Explanation:
The phospholipid bilayer forms the outermost layer of cells called the plasma membrane of the cell.
The phospholipids are arranged in the bilayer with the globular head composed of glycerol and the phosphate on the outer side (hydrophilic) and the hydrophobic carbon chain in the inner side.
The hydrophobic molecule present in the layer provides a characteristic feature to the membrane that is known as selective permeability. The selective permeability allows the non-polar or uncharged molecule to pass through the membrane and not the large polar molecules.
This is because the non-polar molecules can interact with the hydrophobic portion (tails) which could allow the molecules to pass through the membrane but the polar molecules are repelled by the hydrophobic protein so require special channels.