Deck 37: Respiratory Systems

A)Diver 1 would have higher blood pH and would feel the "urge to breathe" sooner.
B)Diver 2 would have higher blood pH and feel the "urge to breathe" sooner.
C)Diver 1 would have higher blood pH,while Diver 2 would feel the "urge to breathe" sooner.
D)Diver 2 would have higher blood pH,while Diver 1 would feel the "urge to breathe" sooner.
E)There would be no difference in blood pH or breathing between the two divers.

A)partial pressure of that gas.
B)incomplete pressure of that gas.
C)total pressure of that gas.
D)gas-specific gravity of that gas.
E)barometry of that gas.

A)countercurrent exchange mechanism.
B)co-current exchange mechanism.
C)high degree of oxygen saturation of water.
D)back-and-forth movement of water that maximizes oxygen uptake.
E)very high blood pressure found in the circulatory system of fishes.

A)the volume of the thoracic cavity increases.
B)pressure in the alveoli increases.
C)the diaphragm contracts and pushes upward on the chest cavity.
D)smooth muscle lining the trachea,bronchi and bronchioles contracts and causes their volume to increase.
E)pulmonary muscles contract and pull on the outer surface of the lungs.

A)21%.
B)1%.
C)5%.
D)50%.
E)78%.

A)tidal volume.
B)total volume.
C)reserve volume.
D)inspiratory reserve volume.
E)expiratory reserve volumE.

A)hemocyanin.
B)hemoglobin.
C)hemophilin.
D)ferritin.
E)calmodulin.

A)CO₂ + H₂O « H₂CO₃ + CO
B)CO₂ + H⁺ « HCO₃⁺ « H₂O + H₂CO₃
C)CO₂ + HCO₃^- « H⁺ + H₂O + H₂CO₃
D)CO₂ + H₂O « H₂CO₃ « HCO₃^- + H⁺
E)CO₂ + H₂CO₃ + O₂ « H₂O + CO₂ + H₂CO₃

A)oxygen diffuses into the blood while carbon dioxide diffuses out of the blood.
B)oxygen diffuses out of the blood while carbon dioxide diffuses into the blood.
C)both oxygen and carbon dioxide diffuse out of the blood.
D)both oxygen and carbon dioxide diffuse into the blooD.
E)no exchange with the blood occurs.

A)pharynx $\rarr$ larynx $\rarr$ trachea $\rarr$ bronchi $\rarr$ bronchioles $\rarr$ alveoli
B)larynx $\rarr$ pharynx $\rarr$ trachea $\rarr$ bronchi $\rarr$ bronchioles $\rarr$ alveoli
C)pharynx $\rarr$ trachea $\rarr$ larynx $\rarr$ bronchi $\rarr$ bronchioles $\rarr$ alveoli
D)bronchi $\rarr$ bronchioles $\rarr$ pharynx $\rarr$ larynx $\rarr$ trachea $\rarr$ alveoli
E)alveoli $\rarr$ bronchioles $\rarr$ bronchi $\rarr$ trachea $\rarr$ larynx $\rarr$ pharynx

A)the chest cavity has a positive pressure.
B)the diaphragm moves upward.
C)the diaphragm contracts.
D)the rib cage moves down.
E)the intercostal muscles relax.

A)iron.
B)copper.
C)manganese.
D)zinc.
E)sodium.

A)as dissolved CO₂ in plasmA.
B)as bicarbonate ion in plasma.
C)attached to hemoglobin in red blood cells.
D)attached to hemoglobin in plasma.
E)as carbonic acid.

A)brainstem.
B)hypothalamus.
C)cerebral cortex.
D)bronchi.
E)neck.

A)mammals
B)birds
C)amphibians
D)fishes
E)birds and fishes

A)Insect capillaries are found only around the gut.
B)Insects have an open circulatory system.
C)Insects have external gills associated with hemolymph vessels.
D)Insects use an air sac respiratory system.

A)lamellae.
B)trachea.
C)alveoli.
D)parabronchi.
E)spiracles.

A)The alveoli would physically collapse.
B)The alveoli would be much more likely to harbor infections.
C)The alveoli would fill with fluid due to an ion transport defect.
D)Oxygen exchange with the blood would be impaired due to a thickening of the epithelium.
E)Carbon dioxide exchange with the blood would be impaired due to an inhibition of carbonic anhydrasE.

A)spiracle.
B)trachea.
C)alveolus.
D)bronchus.
E)stomata.

A)The gas exchange rate would decrease slightly.
B)The gas exchange rate would decrease significantly.
C)The gas exchange rate would increase significantly.
D)The gas exchange rate would increase slightly.
E)The gas exchange rate would be unaffected.

A)The volume of air in the lungs would decrease by 50%.
B)The rate of gas exchange would decrease by 50%.
C)The affinity of hemoglobin for oxygen would decrease by 50%.
D)The muscular control of breathing would decrease by 50%.

A)mouse
B)wolf
C)human
D)horse
E)elephant

A)As soon as oxygen levels decrease,the brain will stimulate an increase in the breathing rate.
B)Because of the increase in carbon dioxide levels,the brain will stimulate an increase in the breathing rate.
C)Because of the increase in carbon dioxide levels,the blood will decrease its affinity for oxygen.

A)Gas exchange would decrease.
B)Lung volume would decrease.
C)Respiratory muscle activity would decrease.
D)Hemoglobin's oxygen affinity would decrease.

A)increased myoglobin concentrations.
B)increased capillary densities.
C)increased amounts of sarcoplasmic reticulum.
D)increased expression of acetylcholine receptors.
E)All of the choices for this question are correct.

A)The pressure will increase.
B)The pressure will decrease.
C)The pressure will not change.

A)The affinity for oxygen by hemoglobin is constant - it does not change.
B)The affinity for oxygen by hemoglobin will increase to correct this situation.
C)The affinity for oxygen by hemoglobin will decrease to correct this situation.

A)your trachea to collapse.
B)your lungs to collapse.
C)your diaphragm to become inactive.
D)your blood to lose oxygen.

A)gas pressure would decrease
B)gas pressure would increase
C)gas pressure would be unchanged