Biology 449 - Animal Physiology |
Fall 2005 |
Midterm 2
Fill in your scantron form as follows. This is worth 1˝ points:
· Write and bubble in your name in the upper left (last name first).
· Follow any additional instructions provided in class.
· Sign your form in the upper right.
Multiple choice: As always, choose the best answer for each multiple-choice question. Answer on your scantron form. Each question is worth 1˝ points.
1. Chodrocytes are cells that
a. lay down bone.
b. break down bone.
c. lay down cartilage.
d. break down cartilage.
e. release IGF-I.
2. Growth hormone levels increase to at least some degree
a. shortly after going to sleep.
b. shortly after eating.
c. when exercising.
d. a and b.
e. a and c.
3. After reaching adulthood, growth in height in humans can be renewed by
a. injecting increased amounts of growth hormone.
b. injecting increased amounts of sex hormones.
c. injecting increased amounts of growth and sex hormones.
d. injecting IGF-I.
e. Additional growth in height in adults is not possible.
4. The thin filaments of a sarcomere are anchored on the
a. foot proteins.
b. globular actin.
c. myosin tails.
d. sarcoplasmic reticulum.
e. Z-line.
5. If a muscle fiber were injected with a substance that poisoned the transporters that move calcium back into the sarcoplasmic reticulum, the likely result of a single action potential in the fiber would be
a. no force production be the fiber.
b. a longer than normal latent period.
c. much slower force development than normal.
d. much lower force production than normal.
e. much longer force production than normal.
6. The myosin binding sites on actin are exposed from beneath tropomyosin when
a. actin undergoes a conformation change.
b. dihydropyridine undergoes a conformation change.
c. myosin undergoes a conformation change.
d. tropomyosin undergoes a conformation change.
e. troponin undergoes a conformation change.
7. The force produced by a muscle is being measured as it contracts under isometric conditions. If the muscle is held at a length of 6 cm during contraction, it produces 10 N of force, but only produces 5 N when held at a length of 8 cm. Which of the following best explains this observation?
a. The weight the muscle is lifting has increased.
b. The weight the muscle is lifting has decreased.
c. Thick filaments are being compressed against the ends of the sarcomere.
d. There is less overlap between thick and thin filaments.
e. None of the above could explain these observations.
8. A twitch contraction is best defined as
a. a contraction triggered by a single action potential.
b. a contraction involving only one motor group.
c. contraction by a fast glycolytic or oxidative fiber.
d. a contraction in which the muscle shortens by only a small amount.
e. a contraction with a short latent period.
9. In mammals, which of the following can be changed by different patterns of physical activty?
a. The number of fibers in a muscle.
b. The type of myosin ATPase in a fiber.
c. The oxidative capacity of a fiber.
d. Two of the above.
e. All of the above.
10. Which of the following best describes how the activity of a whole muscle is controlled to produce an appropriate level of force production for a particular task?
a. Fibers are individually innervated and activated to generate the required amount of force.
b.
Fibers are activated innervated and activated in groups to
generate the required amount of force.
c. All the fibers in a muscle are activated with action potentials of a magnitude suitable to generate the required amount of force.
d. All the fibers in a muscle are activated with action potentials at a frequency suitable to generate the required amount of force.
e. All the fibers in a muscle are activated with the sarcomeres at an appropriate length to generate the required amount of force.
11. Which type of blood vessel has highly elastic walls?
a. Arteries
b. Capillaries
c. Veins
d. a and c are about equal in elasticity.
e. a, b and c are about equal in elasticity.
12. The heart muscle gets its oxygen
a. by direct diffusion from the adjacent lungs.
b. from the blood that passes through the atria and ventricles.
c. from the blood passes through the coronary arteries and then to capillaries in the heart.
d. from myoglobin stores.
e. The heart does not need oxygen since it relies on anaerobic metabolism.
13. Which of the following statements about ventricular filling is not true?
a. The ventricles will fill when blood pressure in the atria exceeds pressure in the ventricles.
b. Blood enters the ventricles only when the atria contract.
c. The semilunar valves prevent blood from the arteries from reentering the ventricles.
d. The volume of blood that enters the ventricles during ventricular diastole is variable.
e. Ventricular filling stops at the beginning of ventricular systole.
14. If total peripheral resistance drops, which of the following changes would be expected as the regulatory response?
a. an increase in blood pressure.
b. a decrease in blood pressure.
c. an increase in cardiac output.
d. a decrease in cardiac output.
e. Two of the above.
15. According to Poiseuille’s Law, the flow of fluid through a tube changes in direct proportion to
a. the radius of the tube.
b. the length of the tube.
c. the viscosity of the fluid.
d. the pressure differential along the tube.
e. Two of the above.
16. Ions and glucose generally make their way from the blood in a capillary to adjacent tissues
a. by diffusing through the membranes of the endothelial cells.
b. by passing though pores between the endothelial cells.
c. by transport across the endothelial cells using carrier proteins.
d. by transport across the endothelial cells in vesicles.
e. Ions and glucose do not exit the blood in capillaries.
17. The elasticity of the lungs is due to
a. the presence of elastin fibers.
b. the surface tension of the fluid lining the alveoli.
c. the compressive force of the intrapleural membrane.
d. Two of the above.
e. All of the above.
18. Atmospheric pressure at 2000 meters is about 600 torr. Given this, what is the approximate partial pressure of oxygen at this altitude?
a. < 1 torr
b. 104 torr
c. 126 torr
d. 160 torr
e. 600 torr
19. During inhalation, the movement of air into the lungs results from
a. diffusion driven by low partial pressure of oxygen in the alveoli
b. diffusion driven by high partial pressure o carbon dioxide in the alveoli.
c. bulk flow driven by lowered hydrostatic pressure in the alveoli.
d. bulk flow driven by increased hydrostatic pressure in the pharynx.
e. Two of the above.
20. If a person at rest consciously forced her tidal volume (the volume of air per breath) to increase from 500 to 1000 ml without doing anything else differently
a. her alveolar ventilation rate would double and alveolar PCO2 would decrease.
b. her alveolar ventilation rate would more than double and alveolar PCO2 would decrease.
c. her alveolar ventilation rate would double and alveolar PCO2 would increase.
d. her alveolar ventilation rate would more than double and alveolar PCO2 would increase.
e. None of the above would be true.
21. In order to determine whether a dissolved gas will diffuse from fluid A to fluid B or from B to A, you need to know
a. the partial pressures of the gas in A and B.
b. the concentrations of the gas in A and B.
c. the solubility of the gas in A and B.
d. Two of the above.
e. All of the above.
22. The element that helps hemoglobin reversibly bind with oxygen is
a. copper.
b. iodine.
c. iron.
d. magnesium.
e. manganese.
23. In a two pigment system for oxygen transport, the second pigment in the delivery chain normally has
a. lower oxygen affinity than the first pigment.
b. the same oxygen affinity as the first pigment.
c. higher oxygen affinity than the first pigment.
d. None of the above.
e. What was the question?
24. A person whose ventral respiratory group (in the medulla) had been destroyed would probably have difficulty with
a. inhalation of any kind.
b. exhalation of any kind.
c. resting breathing.
d. deeper breathing.
e. a and b.
25. Which of the following can pass through the blood-brain barrier by simple diffusion?
a. oxygen
b. carbon dioxide
c. H+
d. Two of the above.
e. All of the above.
Short answer: Write a concise answer to each of the following questions. Your answers should fit in the spaces provided and should address only the question asked. Diagrams must be accompanied by written explanations. Each question is worth 6 points.
26.
Describe the molecular events during cross-bridge cycling in a muscle.
You may use the abbreviations “A” to indicate actin and “M” to indicate
myosin. Be sure to include a written description of what is occurring, not
just a diagram.
27. The table below compares slow oxidative to fast glycolytic muscle fibers. Complete it for the characteristics indicated
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Fast glycolytic |
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Slow oxidative |
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Force production |
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Mitochondrial density |
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Myoglobin concentration |
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Capillary density |
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Glycogen stores |
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Rate of fatigue |
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28.
Describe the pattern of electrical activity (i.e. action
potentials) that occurs in the heart during a normal heartbeat cycle. You
do not need to discuss the particular channels or ions involved in
changing membrane potentials or the mechanical results of these action
potentials.
29. Discuss the effects of epinephrine on the cardiovascular system. Be sure to include both the heart and blood vessels in your discussion.
30. The graph below shows the oxygen saturation curves for human blood at a pH of 7.4 and 7.2.
a. Indicate on the graph which curve corresponds to which pH.
b.
What is the specific name for the shift caused by a drop in pH?
c. Assuming normal hemoglobin at the lungs, how much oxygen (in precent) will be offloaded at tissues with a PO2 of 30 torr
at pH 7.4: at pH 7.2:
d. What would the PO2 have to be to get 50% saturation of the hemoglobin
at pH 7.4: at pH 7.2:
31. Imagine a person at rest holds her breath for 15 seconds and then begins breathing again. This breathing is both faster and deeper than normal until partial pressures in the lungs return to normal. Explain how breath holding for even a short period leads to increased ventilation afterwards.