Question:
Match List I with List II List I List II A Expiratory capacity I Expiratory reserve volume + Tidal volume + Inspiratory reserve volume B Functional residual capacity II Tidal volume + Expiratory reserve volume C Vital capacity III Tidal volume + Inspiratory reserve volume D Inspiratory capacity IV Expiratory reserve volume + Residual volume
Choose the correct answer from the options given below:
Match List I with List II
Choose the correct answer from the options given below:
| List I | List II | ||
| A | Expiratory capacity | I | Expiratory reserve volume + Tidal volume + Inspiratory reserve volume |
| B | Functional residual capacity | II | Tidal volume + Expiratory reserve volume |
| C | Vital capacity | III | Tidal volume + Inspiratory reserve volume |
| D | Inspiratory capacity | IV | Expiratory reserve volume + Residual volume |
Choose the correct answer from the options given below:
Updated On: May 2, 2025
- A-II, B-IV, C-I, D-III
- A-III, B-II, C-IV, D-I
- A-II, B-I, C-IV, D-III
- A-I, B-III, C-II, D-IV
Hide Solution
Verified By Collegedunia
The Correct Option is A
Approach Solution - 1
To match List I with List II, we need to understand the definitions of the respiratory volumes and capacities given:
- Expiratory Capacity (EC): It is the total amount of air a person can exhale after a normal inhalation. It is usually calculated as the sum of Tidal Volume (TV) + Expiratory Reserve Volume (ERV). Thus, A matches with II.
- Functional Residual Capacity (FRC): This is the volume of air remaining in the lungs after a normal expiration. It is Expressed as Expiratory Reserve Volume (ERV) + Residual Volume (RV). Hence, B matches with IV.
- Vital Capacity (VC): This is the maximum amount of air a person can expel from the lungs after a maximum inhalation. It can be expressed as Expiratory Reserve Volume (ERV) + Tidal Volume (TV) + Inspiratory Reserve Volume (IRV). Hence, C matches with I.
- Inspiratory Capacity (IC): This is the maximum amount of air a person can inhale after a normal expiration. It is expressed as Tidal Volume (TV) + Inspiratory Reserve Volume (IRV). Thus, D matches with III.
Was this answer helpful?
1
1
Hide Solution
Verified By Collegedunia
Approach Solution -2
- Expiratory capacity (A) is the sum of Expiratory reserve volume and Tidal volume (II).
- Functional residual capacity (B) is the sum of Expiratory reserve volume and Residual volume (IV).
- Vital capacity (C) is the sum of Tidal volume, Inspiratory reserve volume, and Expiratory reserve volume (I).
- Inspiratory capacity (D) is the sum of Tidal volume and Inspiratory reserve volume (III).
Was this answer helpful?
0
0
Top Questions on Mechanism Of Breathing
- Vital capacity of lung is _________.
- NEET (UG) - 2023
- Biology
- Mechanism Of Breathing
- Select the correct events that occur during inspiration.
(a) Contraction of diaphragm
(b) Contraction of external inter - costal muscles
(c) Pulmonary volume decreases
(d) Intra pulmonary pressure increases- NEET (UG) - 2020
- Biology
- Mechanism Of Breathing
- Tidal Volume and Expiratory Reserve Volume of an athlete is 500 mL and 1000 mL respectively. What will be his Expiratory Capacity if the Residual Volume is 1200 mL?
- NEET (UG) - 2019
- Biology
- Mechanism Of Breathing
- The volume of ??natomical dead space??air is normally
- WBJEE - 2012
- Biology
- Mechanism Of Breathing
- Residual volume is
- KCET - 2007
- Biology
- Mechanism Of Breathing
View More Questions
Questions Asked in NEET exam
- A body weighs 48 N on the surface of the earth. The gravitational force experienced by the body due to the earth at a height equal to one-third the radius of the earth from its surface is:
- NEET (UG) - 2025
- Gravitational potential energy
A bob of heavy mass \(m\) is suspended by a light string of length \(l\). The bob is given a horizontal velocity \(v_0\) as shown in figure. If the string gets slack at some point P making an angle \( \theta \) from the horizontal, the ratio of the speed \(v\) of the bob at point P to its initial speed \(v_0\) is :
- NEET (UG) - 2025
- Pendulums
- An oxygen cylinder of volume 30 litre has 18.20 moles of oxygen. After some oxygen is withdrawn from the cylinder, its gauge pressure drops to 11 atmospheric pressure at temperature \(27^\circ\)C. The mass of the oxygen withdrawn from the cylinder is nearly equal to: [Given, \(R = \frac{100}{12} \text{ J mol}^{-1} \text{K}^{-1}\), and molecular mass of \(O_2 = 32 \text{ g/mol}\), 1 atm pressure = \(1.01 \times 10^5 \text{ N/m}^2\)]
- NEET (UG) - 2025
- Ideal-gas equation and absolute temperature
- A uniform rod of mass 20 kg and length 5 m leans against a smooth vertical wall making an angle of \(60^\circ\) with it. The other end rests on a rough horizontal floor. The friction force that the floor exerts on the rod is (take \(g = 10\) m/s\(^2\)):
- NEET (UG) - 2025
- Common forces in mechanics
- A wire of resistance \(R\) is cut into 8 equal pieces. From these pieces, two equivalent resistances are made by adding four of these together in parallel. Then these two are added in series. The net effective resistance of the combination is:
- NEET (UG) - 2025
- Resistance
View More Questions