Nokea
Where is keratin found?
- A. It is a protein-digesting enzyme released by the stomach.
- B. It is released in the neuromuscular junction.
- C. It is a protein found in the hypodermis.
- D. It is a protein found in hair.
Correct Answer: D
Rationale: Keratin is a structural protein found in hair, skin, and nails, providing strength and protection. It forms the main structural component of hair, making choice D the correct answer. Choices A, B, and C are incorrect because keratin is not an enzyme released by the stomach, not released in the neuromuscular junction, and not found in the hypodermis. Remember that keratin is primarily associated with structural support in epithelial cells.
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Which part of the brain controls the coordination of muscle movements?
- A. Cerebrum
- B. Cerebellum
- C. Thalamus
- D. Medulla oblongata
Correct Answer: B
Rationale: The cerebellum is the part of the brain responsible for controlling the coordination of muscle movements and helping to maintain balance. It receives information from the sensory systems, the spinal cord, and other parts of the brain to regulate voluntary movements. The cerebrum (choice A) is primarily responsible for higher brain functions such as thinking and decision-making, not muscle coordination. The thalamus (choice C) acts as a relay station for sensory information but is not directly involved in muscle coordination. The medulla oblongata (choice D) is responsible for regulating vital autonomic functions like breathing and heart rate, rather than muscle coordination.
Which of the following is an example of a flat bone?
- A. Femur
- B. Scapula
- C. Humerus
- D. Tibia
Correct Answer: B
Rationale: The correct answer is B, the Scapula. Flat bones, such as the scapula, are thin, flattened bones that provide protection to internal organs and serve as attachment points for muscles. The other choices, femur, humerus, and tibia, are examples of long bones, which are characterized by their elongated structure and are primarily involved in supporting weight and facilitating movement.
Which of the following structures is located in the pelvic cavity?
- A. The kidneys
- B. The colon
- C. The bladder
- D. The rectum
Correct Answer: C
Rationale: The correct answer is the bladder. The bladder is situated in the pelvic cavity, specifically in the lower part of the abdomen. The kidneys are positioned higher up in the abdominal cavity, not in the pelvic region. The colon and rectum are part of the large intestine and are primarily located in the abdominal cavity, not the pelvic cavity. Therefore, the bladder is the only structure listed that is anatomically situated in the pelvic cavity.
What is the primary function of the liver in the digestive system?
- A. To absorb water
- B. To produce bile
- C. To store glucose
- D. To regulate metabolism
Correct Answer: B
Rationale: The liver's main function in the digestive system is to produce bile. Bile helps in the digestion and absorption of fats by emulsifying them, breaking down large fat globules into smaller droplets that can be acted upon by digestive enzymes. Choices A, C, and D are incorrect because the liver's primary role in the digestive system is not to absorb water, store glucose, or regulate metabolism. While the liver does have roles in metabolism and glucose regulation, its key function in digestion is bile production.
What is the maximum volume of air that can be expelled from the lungs after maximum inhalation?
- A. Tidal volume
- B. Total lung capacity
- C. Ventilation rate
- D. Vital capacity
Correct Answer: D
Rationale: The correct answer is D, Vital capacity. Vital capacity represents the maximum volume of air that can be expelled from the lungs after a maximum inhalation. Tidal volume (Choice A) is the volume of air inspired or expired during normal breathing at rest and is not the maximum capacity. Total lung capacity (Choice B) refers to the maximum volume of air the lungs can accommodate including the residual volume, not just the expelled air. Ventilation rate (Choice C) is the rate at which air is moved in and out of the lungs, not the maximum volume of air that can be expelled.