Nursing practice questions with comprehensive rationales
NurseDive Free Nursing Practice Question
The labia minora and labia majora are parts of which aspect of the female anatomy?
A. Uterus
Uterus: The uterus is an internal reproductive organ (the womb) and does not include the labia.
B. Fallopian tube
Fallopian tube: Fallopian (uterine) tubes are internal conduits for the oocyte; they are not the labia.
C. Vulva
Vulva: The vulva is the external female genitalia and includes the labia majora and labia minora .
D. Ovary
Ovary: The ovaries are internal gonads that produce oocytes and hormones; they are not the labia.
This question is an excerpt from Nurse Dive's nursing test bank - HUMAN ANATOMY AND PHYSIOLOGY II PROCTORED EXAM (ARIZONA COLLEGE). Take the full exam now
Full Explanation
A. Uterus: The uterus is an internal reproductive organ (the womb) and does not include the labia.
B. Fallopian tube: Fallopian (uterine) tubes are internal conduits for the oocyte; they are not the labia.
C. Vulva: The vulva is the external female genitalia and includes the labia majora and labia minora .
D. Ovary: The ovaries are internal gonads that produce oocytes and hormones; they are not the labia.
Similar Questions
Which process involves the movement of oxygen from the blood into body cells and the exchange of carbon dioxide from cells into the blood?
A. Cellular metabolism
Cellular metabolism: Cellular metabolism refers to the chemical reactions inside cells that use O₂ and produce CO₂, but it does not describe the movement of gases between blood and cells.
B. Alveolar ventilation
Alveolar ventilation: Alveolar ventilation is the movement of air into and out of the alveoli (airways → lungs), not the exchange between blood and body cells.
C. External respiration
External respiration: External respiration is gas exchange between the alveoli and pulmonary capillaries (air and blood in the lungs), not between blood and tissues.
D. Internal respiration
Internal respiration: Internal respiration is the exchange of O₂ from the blood into body cells and CO₂ from the cells into the blood .
Full Explanation
A. Cellular metabolism: Cellular metabolism refers to the chemical reactions inside cells that use O₂ and produce CO₂, but it does not describe the movement of gases between blood and cells.
B. Alveolar ventilation: Alveolar ventilation is the movement of air into and out of the alveoli (airways → lungs), not the exchange between blood and body cells.
C. External respiration: External respiration is gas exchange between the alveoli and pulmonary capillaries (air and blood in the lungs), not between blood and tissues.
D. Internal respiration: Internal respiration is the exchange of O₂ from the blood into body cells and CO₂ from the cells into the blood .
The pancreas functions as both an endocrine and exocrine gland. Which of the following accurately describes its dual role?
A. The exocrine function involves hormone release, while the endocrine function involves the secretion of buffers and enzymes.
The exocrine function involves hormone release, while the endocrine function involves the secretion of buffers and enzymes.: this reverses the roles; exocrine does enzymes/buffers, endocrine does hormones.
B. The endocrine function involves the secretion of digestive enzymes, while the exocrine function involves hormone release.
The endocrine function involves the secretion of digestive enzymes, while the exocrine function involves hormone release.: reversed roles.
C. The exocrine function involves the release of insulin and glucagon, while the endocrine function involves hormone release.
The exocrine function involves the release of insulin and glucagon, while the endocrine function involves hormone release.: insulin and glucagon are endocrine products, not exocrine.
D. The endocrine function involves the release of insulin and glucagon, while the exocrine function involves the secretion of digestive enzymes and buffers.
The endocrine function involves the release of insulin and glucagon, while the exocrine function involves the secretion of digestive enzymes and buffers.: the pancreas’ islet cells secrete insulin/glucagon (endocrine) and acinar/bicarbonate secretions go to the duodenum (exocrine).
Full Explanation
A. The exocrine function involves hormone release, while the endocrine function involves the secretion of buffers and enzymes.: this reverses the roles; exocrine does enzymes/buffers, endocrine does hormones.
B. The endocrine function involves the secretion of digestive enzymes, while the exocrine function involves hormone release.: reversed roles.
C. The exocrine function involves the release of insulin and glucagon, while the endocrine function involves hormone release.: insulin and glucagon are endocrine products, not exocrine.
D. The endocrine function involves the release of insulin and glucagon, while the exocrine function involves the secretion of digestive enzymes and buffers.: the pancreas’ islet cells secrete insulin/glucagon (endocrine) and acinar/bicarbonate secretions go to the duodenum (exocrine).
Which male reproductive gland is responsible for secreting a milky fluid that nourishes and protects sperm and helps neutralize the acidic environment of the female reproductive tract?
A. Bulbourethral gland
Bulbourethral gland: Bulbourethral (Cowper’s) glands produce a clear mucous pre-ejaculate that lubricates the urethra and can neutralize small amounts of urine but do not produce the milky, nutrient-rich fluid described.
B. Skene's gland
Skene's gland: Skene’s glands are female periurethral glands (not male) and are not involved in semen production.
C. Bartholin's gland
Bartholin's gland: Bartholin’s glands are female vestibular glands producing lubrication during arousal -not involved in male semen.
D. Prostate gland
Prostate gland: The prostate secretes a slightly alkaline, milky fluid that nourishes/protects sperm and helps neutralize the acidic vaginal environment .
Full Explanation
A. Bulbourethral gland: Bulbourethral (Cowper’s) glands produce a clear mucous pre-ejaculate that lubricates the urethra and can neutralize small amounts of urine but do not produce the milky, nutrient-rich fluid described.
B. Skene's gland: Skene’s glands are female periurethral glands (not male) and are not involved in semen production.
C. Bartholin's gland: Bartholin’s glands are female vestibular glands producing lubrication during arousal -not involved in male semen.
D. Prostate gland: The prostate secretes a slightly alkaline, milky fluid that nourishes/protects sperm and helps neutralize the acidic vaginal environment .