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Test: Breathing & Exchange of Gases-2 - NEET MCQ


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20 Questions MCQ Test Biology Class 11 - Test: Breathing & Exchange of Gases-2

Test: Breathing & Exchange of Gases-2 for NEET 2024 is part of Biology Class 11 preparation. The Test: Breathing & Exchange of Gases-2 questions and answers have been prepared according to the NEET exam syllabus.The Test: Breathing & Exchange of Gases-2 MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Breathing & Exchange of Gases-2 below.
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Test: Breathing & Exchange of Gases-2 - Question 1

Which one of the following is wrong statement with respect to the functions of respiratory system?

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 1

The function of respiratory system does not deal with the cleaning up of the air.
Respiration involves the following steps:
(i) Breathing or pulmonary ventilation by which atmospheric air is drawn in and CO2 rich alveolar air is released out. (ii) Diffusion of gases (O2 and CO2 ) across alveolar membrane.
(iii) Transport of gases by the blood.
(iv) Diffusion of O2 and CO2 between blood and tissues.
(v) Utilisation of O2 by the cells for catabolic reactions and resultant release of CO2 (cellular respiration

Test: Breathing & Exchange of Gases-2 - Question 2

The principle of exchange of gases at the lungs is :

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 2

Exchange of gases at the lungs by simple diffusion.

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Test: Breathing & Exchange of Gases-2 - Question 3

The regulatory centres for respiration are located in :

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 3

A specialisedcentre present in the medulla region of the brain called respiratory rhythm centre is primarily responsible for this regulation. In the pons region of the brain called pneumotaxiccentre can moderate the functions of the respiratory rhythm centre.

Test: Breathing & Exchange of Gases-2 - Question 4

In CNS, regulation of respiratory rhythm during normal breathing is largely dependent upon :

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 4

In central nervous system, regulation of respiratory rhythm during normal breathing is dependent upon concentration of carbon dioxide gas in air.

Test: Breathing & Exchange of Gases-2 - Question 5

Match the following:


 

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 5

TV isapprox. 500 mL., i.e., a healthy man caninspire or expire approximately 6000 to 8000mL of air per minute. IRV averages 2500mL to 3000 mL.ERV averages 1000mL to 1100 mL. RV averages 1100 mL to 1200 mL.

Test: Breathing & Exchange of Gases-2 - Question 6

Respiration in insects is direct due to exchange of gases

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 6

In insects, the respiration takes place through tracheal tubes which directly exchange gases with haemocoel and then with tissues.

Test: Breathing & Exchange of Gases-2 - Question 7

Read the following statements : 
i. The affinity of Hb for CO is 200 to 250 times more than its affinity for oxygen therefore CO competes with oxygen for binding to Hb.
ii. The result of this binding are a shift of oxygen-hemoglobin dissociation curve to the left and its alteration to a more hyperbolic shape.

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 7

Correct Answer :- a

Explanation : a) Carboxyhemoglobin (COHb) is formed when CO binds with hemoglobin with an affinity 200 times greater than oxygen, thereby decreasing oxygen-carrying capacity and the release of oxygen to tissues, leading to tissue hypoxia.

b)  The reason why the curves are different is because of the

different structures of myoglobin and haemoglobin. Myoglobin contains only a single globin chain: its dissociation curve is a rectangular hyperbola. Haemoglobin contains four globin chains and the oxygenation of each chain causes structural changes which increase the affinity of the haem of the remaining chains for oxygen. This consequence of subunit interaction is known as positive cooperativity and this increasing oxygen affinity as oxygen loads is the cause of the sigmoid shape of the dissociation curve.

Test: Breathing & Exchange of Gases-2 - Question 8

RBCs and muscle cells carry out anaerobic respiration, but :
i. RBCs are permanently anaerobic and muscle cells are temporarily anaerobic 
ii. RBCs are temporarily anaerobic and muscle cells are permanently anaerobic 
iii. Muscle cells lack mitochondria.

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 8

Red blood cells and muscle cells carry out anaerobic respiration but RBC’s are permanently anaerobic and muscle cells are temporarily anaerobic in nature.

Test: Breathing & Exchange of Gases-2 - Question 9

In humans, what is true about RBCs?

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 9

Nearly 20-25 per cent of CO2 is transported by RBCs whereas 70 per cent of it is carried as bicarbonate. About 7 per cent of CO2 is carried in a dissolved state through plasma acc. to ncert textbook.

Test: Breathing & Exchange of Gases-2 - Question 10

What happens to the respiratory rate when the carbon dioxide concentration in the blood increases?

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 10

When the carbon dioxide concentration in the blood increases, the respiratory rate will also increase to expel the excess carbon dioxide. This response is known as hyperventilation and is triggered by an increased level of CO2 in the body.

Test: Breathing & Exchange of Gases-2 - Question 11

Which enzyme plays a crucial role in facilitating the reaction between CO2 and haemoglobin?

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 11

RBCs contain a very high concentration of the enzyme carbonic anhydrase. This enzyme facilitates the reaction between CO2 and haemoglobin in both directions, aiding in the formation of carbamino-haemoglobin and its subsequent dissociation.

Test: Breathing & Exchange of Gases-2 - Question 12

A person living at sea level has approximately 5 million red blood cells per cubic millimeter of blood. In comparison, a person living at 5400 meters has about 8 million red blood cells. Because of the high altitude

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 12

Atmospheric oxygen is less and hence more RBCs are needed to absorb the required amount of oxygen to survive.
At higher altitudes, the composition of air remains almost the same as at the sea level, but the density of the air gradually decreases. Number of red blood cells per unit volume is likely to be higher in a person living at high altitudes. This is in response to the air being less dense at high altitude. More number of red blood cells (more amount of hemoglobin) is needed to trap oxygen from the rarefied air having low pO2.

Test: Breathing & Exchange of Gases-2 - Question 13

The given graph shows O2 consumption and ventilation during exercise so we can infer from this graph :

 
i. During exercise, oxygen consumption rate in our body increases.
ii. Neural stimulus allows abdominal muscles , which are a kind of smooth muscle to contract to facilitate ventilation while exercising.
iii. Increase in ventilation during exercise prevents large changes in the partial pressure of O2 or CO2 
iv. The overall impact is breathing rate increases.

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 13

Based on the given graph and the statements provided:

  1. Statement i: During exercise, oxygen consumption rate in our body increases.

    • This is generally correct, as exercise increases the demand for oxygen.
  2. Statement ii: Neural stimulus allows abdominal muscles, which are a kind of smooth muscle, to contract to facilitate ventilation while exercising.

    • This is partially correct, as neural stimulation does play a role in ventilation. However, abdominal muscles are actually skeletal muscles, not smooth muscles. So, this statement is inaccurate due to the muscle type mentioned.
  3. Statement iii: Increase in ventilation during exercise prevents large changes in the partial pressure of O₂ or CO₂.

    • This is correct. Increased ventilation helps maintain stable levels of oxygen and carbon dioxide during exercise.
  4. Statement iv: The overall impact is that the breathing rate increases.

    • This is also correct, as exercise typically increases the breathing rate.

Given this analysis, the correct answer is:

d) only i), iii), and iv) are correct.

Test: Breathing & Exchange of Gases-2 - Question 14

The exchange of gases in :
i. the alveoli that lowers the pO2 of blood and raises its pCO2 is external respiration
ii. the tissues that lowers the pCO2 of blood and raises its pO2 is internal respiration

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 14

In the alveoli, there is high pO2 , low pCO2 , lesser H+ concentration and lower temperature,

Test: Breathing & Exchange of Gases-2 - Question 15

Habit of Cigarette smoking can lead to :

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 15

The habit of Cigarette smoking can lead to coughing, emphysema and loss of cilia lining the respiratory tract. It contain nicotine that breaks the wall of alveoli to reduce respiratory surface.

Test: Breathing & Exchange of Gases-2 - Question 16

Read the following :
i. During chloride shift , the chloride ions diffuse into the red blood cells from plasma.
ii. Chloride shift, helps to maintain ionic balance and chemical neutrality.
iii. Chloride shift occurs during transport of CO2 .

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 16

Statement i) is correct because chloride shift refers to the movement of chloride ions from red blood cells (RBCs) into the blood plasma. This helps to maintain the ionic balance between the RBCs and the blood plasma.

Statement ii) is correct because chloride shift is an important mechanism that helps to maintain ionic balance and chemical neutrality in the body. It ensures that the concentration of chloride ions remains balanced between the RBCs and the blood plasma.

Statement iii) is incorrect because chloride shift does not occur during the transport of CO2. Instead, during CO2 transport, bicarbonate ions are formed within the RBCs and then transported into the plasma in exchange for chloride ions. This process is known as the HCO3- (bicarbonate) shift.

Test: Breathing & Exchange of Gases-2 - Question 17

An increase in lung ventilation rate is caused by which of the following conditions?

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 17

The increase in carbon dioxide (CO2) levels triggers an increase in the lung ventilation rate as it signals a need for more oxygen to be obtained. This leads to an increased demand for oxygen, which increases respiratory rate and depth.

Test: Breathing & Exchange of Gases-2 - Question 18

If TLC is 5500ml, IRV is 2950ml, ERV is 900ml and TV is 500ml then what will be value of RV ?

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 18

RV = TLC - IRV – ERV– TV. On substituting the values, we get 1150ml.

Test: Breathing & Exchange of Gases-2 - Question 19

The correct sequence of respiration is
i) Breathing in oxygen
ii) Transportation of gases by the blood
iii) Diffusion of gases between blood and tissues
iv) Diffusion of gases across alveolar membrane
v) Using of oxygen and releasing of carbondioxide

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 19

Respiration involves breathing or pulmonary ventilation by which atmospheric air is drawn in, Diffusion of gases across alveolar membrane, Transport of gases by the blood, Diffusion of gases between blood and tissues.Utilisation of oxygen by the cells.

Test: Breathing & Exchange of Gases-2 - Question 20

What is the relationship between pO2 and the binding of CO2 to haemoglobin in tissues?

Detailed Solution for Test: Breathing & Exchange of Gases-2 - Question 20

When pO2 is low in the tissues, there is a higher binding of carbon dioxide to haemoglobin. This is because, in tissues, where pCO2 is high and pO2 is low, more binding of carbon dioxide to haemoglobin occurs.

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