BREATHING AND EXCHANGE OF GASES

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96 BIOLOGY, EXEMPLAR PROBLEMS CHAPTER 17 BREATHING AND EXCHANGE OF GASES MULTIPLE CHOICE QUESTIONS 1. Respiration in insects is called direct because a. The cell exchange O 2 directly with the air in the tubes b. The tissues exchange O 2 directly with coelomic fluid c. The tissues exchange O 2 directly with the air outside through body surface d. Tracheal tubes exchange O 2 directly with the haemocoel which then exchange with tissues 2. Regarding the functions of our respiratory system, mark the wrong entry. a. Humidifies the air b. Warms up the air c. Exchange of gases d. Cleans up the air 3. A person suffers punctures in his chest cavity in an accident without any damage to the lungs. Its effect could be a. Reduced breathing rate b. Rapid increase in breathing rate c. No change in respiration d. Cessation of breathing 4. It is known that exposure to carbon monoxide is harmful to animals because a. It reduces CO 2 b. It reduces O 2 c. It increases CO 2 d. It increases O 2

BREATHING AND EXCHANGE OF GASES 9797 5. Mark the true statement among the following with reference to normal breathing a. Inspiration is a passive process where as expiration is active b. Inspiration is a active process where as expiration is passive c. Inspiration and expiration are active processes d. Inspiration and expiration are passive processes 6. A person breathes in some volume of air by forced inspiration after having a forced expiration. This quantity of air taken in is a. Total lung capacity b. Tidal volume c. Vital capacity d. Inspiratory capacity 7. Mark the incorrect statement in context to O2 binding to Hb a. Higher ph b. Lower temperature c. Lower pco 2 d. Higher PO 2 8. Which of the following statements is incorrect regarding respiratory system? a. Each terminal bronchiole give rise to a network of bronchi. b. the alveoli are highly vascularised. c. The lungs are covered by a double-layered membrane. d. The plecral fluid reduces friction on the lung surface. 9. Incidence of Emphysema a respiratory disorder is high in cigarette smokers. In such cases a. The bronchioles are found damaged b. The alveolar walls are found damaged c. The plasma membrane is found damaged d. The respiratory muscles are found damaged 10. Respiratory process is regulated by certain specialized centres in the brain. One of the following centres can reduce the inspiratory duration upon stimulation a. Medullary inspiratory centre b. Pneumotaxic centre c. Apneustic centre d. Chemosensitive centre

98 BIOLOGY, EXEMPLAR PROBLEMS 11. CO 2 dissociates from carbaminohaemoglobin when a. pco 2 is high & po 2 is low b. po 2 is high and pco 2 is low c. pco 2 and po 2 are equal d. None of the above 12. In breathing movements, air volume can be estimated by a. Stethoscope b. Hygrometer c. Sphigmomanometer d. Spirometer 13. From the following relationships between respiratory volume and capacities and mark the correct answer i. Inspiratory capacity (IC) = Tidal Volume + Residual Volume ii. Vital Capacity (VC) = Tidal Volume (TV) + Inspiratory Reserve Volume (IRV) + Expiratory Reserve Volume (ERV). iii. Residual Volume (RV) = Vital Capacity (VC) Inspiratory Reserve Volume (IRV) iv. Tidal Volume (TV) = Inspiratory Capacity (IC) Inspiratory Reserve Volume (IRV) Options: a. (i) Incorrect, (ii) Incorrect, (iii) Incorrect, (iv) Correct b. (i) Incorrect, (ii) Correct, (iii) Incorrect, (iv) Correct c. (i) Correct, (ii) Correct, (iii) Incorrect, (iv) Correct d. (i) Correct, (ii) Incorrect, (iii) Correct, (iv) Incorrect 14. The oxygen - haemoglobin dissociation curve will show a right shift in case of a. High pco 2 b. High po 2 c. Low pco 2 d. Less H + concentration 15. Match the following and mark the correct options Animal Respiratory Organ A. Earthworm i. Moist cuticle B. Insects ii. Gills C. Fishes iii. Lungs D. Birds/Reptiles iv. Trachea

BREATHING AND EXCHANGE OF GASES 9999 Options: a. A-ii, B-i, C-iv, D-iii b. A-i, B-iv, C-ii, D-iii c. A-i, B-iii, C-ii, D-iv d. A-i, B-ii, C-i.v, D-iii VERY SHORT ANSWER TYPE QUESTIONS 1. Define the following terms? a. Tidal volume b. Residual volume c. Asthma 2. A fluid filled double membranous layer surrounds the lungs. Name it and mention its important function. 3. Name the primary site of exchange of gases in our body? 4. Cigarette smoking causes emphysema. Give reason. 5. What is the amount of O 2 supplied to tissues through every 100 ml. of oxygenated blood under normal physiological conditions? 6. A major percentage (97%) of O 2 is ed by RBCs in the blood. How does the remaining percentage (3%) of O 2 ed? 7. Arrange the following terms based on their volumes in an ascending order a. Tidal Volume (TV) b. Residual Volume (RV) c. Inspiratory Reserve Volume (IRV) d. Expiratory Capacity (EC) 8. Complete the missing terms a. Inspiratory Capacity (IC) = +IRV b. = TV + ERV c. Functional Residual Capacity (FRC) = ERV + 9. Name the organs of respiration in the following organisms: a. Flatworm - b. Birds - c. Frog- d. Cockroach -

100 BIOLOGY, EXEMPLAR PROBLEMS 10. Name the important parts involved in creating a pressure gradient between lungs and the atmosphere during normal respiration. SHORT ANSWER TYPE QUESTIONS 1. State the different modes of CO 2 in blood. 2. Compared to O 2, diffusion rate of CO 2 through the diffusion membrane per unit difference in partial pressure is much higher. Explain. 3. For completion of respiration process, write the given steps in sequential manner a. Diffusion of gases (O 2 ) across alveolar membrane. b. Transport of gases by blood. c. Utilisation of O 2 by the cells for catabolic reactions and resultant release of CO 2. d. Pulmonary ventilation by which atmospheric air is drawn in and CO 2 rich alveolar air is released out. e. Diffusion of O 2 between blood and tissues. 4. Differentiate between a. Inspiratory and expiratory reserve volume b. Vital capacity and total lung capacity c. Emphysema and occupational respiratory disorder LONG ANSWER TYPE QUESTIONS 1. Explain the of O 2 between alveoli and tissue with diagram. 2. Explain the mechanism of breathing with neat labelled sketches. 3. Explain the role of neural system in regulation of respiration.

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