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Biology: The Dynamic Science

Peter J. Russell, Paul E. Hertz, Beverly McMillan

Chapter 46

Gas Exchange: The Respiratory System - all with Video Answers

Educators

Chapter Questions

01:07

Problem 1

Which of the following describes a respiratory medium?
a. the liver of an amphibian, in which the rate of diffusion is high
b. neurons in the human brain, where $\mathrm{CO}_{2}$ moves from the neurons to the blood
c. the $\mathrm{O}_{2}$ in the blood of humans
d. epithelial cells of fish that are in contact with the air
e. air and water

Joanna Quigley
Joanna Quigley
Numerade Educator
01:25

Problem 2

Which of the following describes a respiratory surface?
a. a surface consisting of multiple layers of epithelial cells
b. the exoskeleton of an insect
c. the nasal passages of a mammal
d. thin surface consisting of a single layer of epithelial cells
e. the outer membrane of a mitochondrion

Joanna Quigley
Joanna Quigley
Numerade Educator
01:45

Problem 3

A geothermal HVAC (heating, ventilating, and air conditioning) system air-conditions your house by passing warm air pulled from the house past a continuous flow of cool water pulled from the ground. How this heat exchanger works is analogous to:
a. countercurrent exchange of gases in fish gills or bird lungs.
b. diffusion of $\mathrm{O}_{2}$ from blood to cells in shark tissues.
c. diffusion of $\mathrm{CO}_{2}$ from cells to blood in crabs.
d. use of $\mathrm{O}_{2}$ in cells in insects.
e. excretion of $\mathrm{CO}_{2}$ from mammalian cells.

Joanna Quigley
Joanna Quigley
Numerade Educator
01:16

Problem 4

Tracheal systems are characterized by:
a. closed circulatory tubes that move gases.
b. spiracles that move gases between cells and body fluids.
c. body movements that compress and expand air sacs to pump air.
d. positive pressure breathing, which swallows air into the body.
e. negative pressure breathing, which lowers air pressure at the respiratory surfaces.

Joanna Quigley
Joanna Quigley
Numerade Educator
01:29

Problem 5

The partial pressure of $\mathrm{O}_{2}$ in the atmosphere is $160 \mathrm{mm}$ Hg, but when $\mathrm{O}_{2}$ moves into the blood its partial pressure is one third lower than the atmospheric partial pressure. Which structure is it moving through at this partial pressure?
a. alveoli
b. bronchi
c. bronchioles
d. tracheae
e. pharynges

Joanna Quigley
Joanna Quigley
Numerade Educator
02:06

Problem 6

As a speed skater finishes the last lap of a race:
a. his diaphragm and rib muscles contract when he exhales.
b. positive pressure brings air into his lungs.
c. his lungs undergo an elastic recoil when he inhales.
d. his tidal volume is at vital capacity.
e. his residual volume momentarily reaches zero.

Joanna Quigley
Joanna Quigley
Numerade Educator
02:33

Problem 7

A teenager is frightened when she is about to step onto the stage but then remembers to breathe deeply and slowly as she faces the What is occurring here?
Interneurons in the medulla cause the rib muscles to relax, followed later by stimulation and contraction of the intercostal muscles.
b. signals from the pons override the initial brain stem stimuli.
c. The limbic system stabilized her emotional state, so there is no change in the mechanical movement of air.
d. The brain signals the aortic bodies in the carotid arteries to adjust the breathing rate.
e. Initial low $\mathrm{CO}_{2}$ blood levels causing high $\mathrm{pH}$ are followed by increased $\mathrm{CO}_{2}$ levels that lower $\mathrm{pH}$.

Joanna Quigley
Joanna Quigley
Numerade Educator
01:11

Problem 8

Oxygen enters the blood in the lungs because relative to alveolar air:
a. the $C O_{2}$ concentration in the blood is high.
b. the $\mathrm{CO}_{2}$ concentration in the blood is low.
c. the $\mathrm{O}_{2}$ concentration in the blood is high.
d. the $\mathrm{O}_{2}$ concentration in the blood is low.
e. the process is independent of gas concentrations in the blood.

Joanna Quigley
Joanna Quigley
Numerade Educator
02:33

Problem 9

A hemoglobin $\mathrm{O}_{2}$ dissociation curve:
a. demonstrates that hemoglobin is about $50 \%$ saturated in the alveoli.
b. shifts to the left when $\mathrm{pH}$ rises.
c. demonstrates that hemoglobin holds less $\mathrm{O}_{2}$ when the $\mathrm{pH}$ is higher.
d. illustrates that oxygen saturation is not dependent on $\mathrm{CO}_{2}$ levels.
e. demonstrates why hemoglobin can bind $\mathrm{O}_{2}$ at high $\mathrm{pH}$ in the lungs and release it at lower $\mathrm{pH}$ in the tissues.

Joanna Quigley
Joanna Quigley
Numerade Educator
02:11

Problem 10

The majority of $\mathrm{CO}_{2}$ in the blood:
a. is in the form of carbonic acid and bicarbonate ions.
b. dissociates to add $\mathrm{H}^{1}$ to the blood to raise its $\mathrm{pH}$ to 7.4
c. has a lower $\mathrm{P}_{\mathrm{CO}_{2}}$, than the $\mathrm{P}_{\mathrm{CO}_{2}}$ in the alveolar air.
d. increases in the lung capillaries, which have a higher $\mathrm{pH}$ than the tissue capillaries.
e. can be displaced on the hemoglobin molecule by CO if CO is inhaled.

Joanna Quigley
Joanna Quigley
Numerade Educator