Test Bank for Cardiopulmonary Anatomy & Physiology Essentials of Respiratory Care 7th Edition Jardins recently update with all chapters covered (100% verified)

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Essentials of Respiratory Care 7th Edition Jardins
f f f f f f f


Name: Class: Date:

Chapter 02: Ventilation f f




1. What instrument is used to measure Patm?
f f f f f f



a. dynameter b. altimeter f




c. barometerf d. hygrometer f




ANSWER: c
FEEDBACK: a. A barometer is used to measure barometric (PB) or atmospheric (Patm) pressure. f f f f f f f f f f f f




b. A barometer is used to measure barometric (PB) or atmospheric (Patm) pressure.
f f f f f f f f f f f




c. A barometer is used to measure barometric (PB) or atmospheric (Patm) pressure.
f f f f f f f f f f f




d. A barometer is used to measure barometric (PB) or atmospheric (Patm) pressure.
f f f f f f f f f f f




POINTS: 1
DIFFICULTY: Recall
REFERENCES: The Airways f




QUESTION TYPE:
f f f Multiple Choice f




HAS VARIABLES:
f f f False
DATE CREATED: f 1/29/2019 9:34 AM f f




DATE MODIFIED: f f f 1/29/2019 9:37 AM f f




2. What is the term for the movement of gas from the external environment to the alveoli?
f f f f f f f f f f f f f f f



a. external respiration b. ventilation f f




c. internal respiration
f d. osmosis f f




ANSWER: b
FEEDBACK: a. The movement of gas from the external environment to the alveoli is called f f f f f f f f f f f f f



ventilation.
b. The movement of gas from the external environment to the alveoli is called
f f f f f f f f f f f f


ventilation.
f




c. The movement of gas from the external environment to the alveoli is called
f f f f f f f f f f f f


ventilation.
f




d. The movement of gas from the external environment to the alveoli is called
f f f f f f f f f f f f


ventilation.
f




POINTS: 1
DIFFICULTY: Recall
REFERENCES: Introduction
QUESTION TYPE: f Multiple Choice f




HAS VARIABLES:
f False
LEARNING OBJECTIVES: f f 1
DATE CREATED: f 1/29/2019 9:38 AM f f




DATE MODIFIED: f 1/29/2019 9:39 AM f f




3. At sea level under standard conditions, what would the PB equal in mm Hg ?
f f f f f f f f f f f f f f



a. 29.9 fb. 1034 f




c. 14.7 fd. 760 f




ANSWER: d
FEEDBACK: a. At sea level under standard conditions, the normal barometric pressure is 760 f f f f f f f f f f f f



mm Hg. f




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, DOWNLOAD THE Test Bank for Cardiopulmonary Anatomy & Physiology
f f f f f f f f



Essentials of Respiratory Care 7th Edition Jardins
f f f f f f f


Name: Class: Date:

Chapter 02: Ventilation f f




b. At sea level under standard conditions, the normal barometric pressure is 760
f f f f f f f f f f f


mm Hg.f f




c. At sea level under standard conditions, the normal barometric pressure is 760
f f f f f f f f f f f


mm Hg.f f




d. At sea level under standard conditions, the normal barometric pressure is 760
f f f f f f f f f f f


mm Hg.f f




POINTS: 1
DIFFICULTY: Recall
REFERENCES: Mechanisms of Ventilation f f




QUESTION TYPE: f Multiple Choice f




HAS VARIABLES:
f False
LEARNING OBJECTIVES: f f 2
DATE CREATED:f 1/29/2019 9:40 AM f f




DATE MODIFIED:
f 1/30/2019 1:04 AM f f




4. What is the general term for a pressure difference between two points in a system?
f f f f f f f f f f f f f f



a. diffusion b. osmotic gradient f f




c. pressure gradient
f d. system pressure variation
f f f f




ANSWER: c
FEEDBACK: a. A pressure gradient is defined as the difference in pressures occuring between f f f f f f f f f f f f



two points. f




b. A pressure gradient is defined as the difference in pressures occuring between
f f f f f f f f f f f


two points.
f f




c. A pressure gradient is defined as the difference in pressures occuring between
f f f f f f f f f f f


two points.
f f




d. A pressure gradient is defined as the difference in pressures occuring between
f f f f f f f f f f f


two points.
f f




POINTS: 1
DIFFICULTY: Recall
REFERENCES: Pressure Gradients f




QUESTION TYPE: f Multiple Choice f




HAS VARIABLES:
f False
LEARNING OBJECTIVES: f f 2
DATE CREATED:f 1/29/2019 9:43 AM f f




DATE MODIFIED:
f 1/29/2019 9:45 AM f f




5. At sea level, what would the alveolar pressure at end-expiration equal?
f f f f f f f f f f



a. 760 mm Hg b. 0 mm Hg f f f f f




c. 764 mmHg
f d. 756 mm Hg
f f f f




ANSWER: a
FEEDBACK: a. Because the alveolar and atmospheric pressure are identical at end-expiration, f f f f f f f f f f



no air movement occurs. f f f




b. Because the alveolar and atmospheric pressure are identical at end-expiration, no
f f f f f f f f f f


air movement occurs.
f f f




c. Because the alveolar and atmospheric pressure are identical at end-expiration,
f f f f f f f f f




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, DOWNLOAD THE Test Bank for Cardiopulmonary Anatomy & Physiology
f f f f f f f f



Essentials of Respiratory Care 7th Edition Jardins
f f f f f f f


Name: Class: Date:

Chapter 02: Ventilation
f f




no air movement occurs.
f f f




d. Because the alveolar and atmospheric pressure are identical at end-expiration, no
f f f f f f f f f f


air movement occurs.
f f f




POINTS: 1
DIFFICULTY: Recall
REFERENCES: Pressure Gradients f




QUESTION TYPE: f Multiple Choice f




HAS VARIABLES:
f False
LEARNING OBJECTIVES: f f 2
DATE CREATED:f 1/29/2019 9:45 AM f f




DATE MODIFIED:
f 1/29/2019 9:47 AM f f




6. At what point in the ventilatory cycle would the intra-alveolar pressure be higher than the atmospheric pressure?
f f f f f f f f f f f f f f f f



a. pre-inspiration b. inspiration f




c. expiration
f d. end-expiration f




ANSWER: c
FEEDBACK: a. For gas to leave the lungs during exhalation, the intra-alveolar pressure must
f f f f f f f f f f f f



be higher than the atmospheric pressure.
f f f f f




b. For gas to leave the lungs during exhalation, the intra-alveolar pressure must be
f f f f f f f f f f f f


higher than the atmospheric pressure.
f f f f f




c. For gas to leave the lungs during exhalation, the intra-alveolar pressure must be
f f f f f f f f f f f f


higher than the atmospheric pressure.
f f f f f




d. For gas to leave the lungs during exhalation, the intra-alveolar pressure must be
f f f f f f f f f f f f


higher than the atmospheric pressure.
f f f f f




POINTS: 1
DIFFICULTY: Recall
REFERENCES: Pressure Gradients f




QUESTION TYPE: f Multiple Choice f




HAS VARIABLES:
f False
LEARNING OBJECTIVES: f f 2
DATE CREATED:f 1/29/2019 9:49 AM f f




DATE MODIFIED:
f 1/29/2019 9:51 AM f f




7. Which gas law states that at constant temperature, a volume of gas varies inversely proportional to its pressure?
f f f f f f f f f f f f f f f f f



a. Henry’s b. Charles f




c. Boyle’s d. Gay-Lussac’s f




ANSWER: c
FEEDBACK: a. Boyle’s law states that at a constant temperature P1 x V1=P2 x V2 . f f f f f f f f f f f f f f




b. Boyle’s law states that at a constant temperature P1 x V1=P2 x V2 .
f f f f f f f f f f f f f




c. Boyle’s law states that at a constant temperature P1 x V1=P2 x V2 .
f f f f f f f f f f f f f




d. Boyle’s law states that at a constant temperature P1 x V1=P2 x V2 .
f f f f f f f f f f f f f




POINTS: 1
DIFFICULTY: Recall

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