Nokea
Which of the following substances is excreted by sweat glands in response to the breakdown of proteins and the formation of ammonia?
- A. Sebum
- B. Water
- C. Urea
- D. Lysozymes
Correct Answer: C
Rationale: Urea is the correct answer. Sweat glands excrete urea in response to the breakdown of proteins and the formation of ammonia. Urea is a waste product resulting from the breakdown of proteins in the liver and is excreted in urine as well as through sweat. Sebum is an oily substance produced by the skin's sebaceous glands, water is excreted by various means but is not specifically a result of protein breakdown, and lysozymes are enzymes that help protect the body against bacterial infections.
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In a study that found two processes, process A and process B, to be correlated, which of the following statements is true for these processes?
- A. The study cannot indicate whether processes A and B have a negative relationship.
- B. The study does not indicate a causal relationship between the processes.
- C. The study cannot indicate whether processes A and B have a positive relationship.
- D. The study indicates that process A causes process B.
Correct Answer: B
Rationale: When two processes are found to be correlated, it means that they are related in some way, but correlation does not imply causation. The study establishes a statistical relationship between process A and process B, but it does not prove that one causes the other. Therefore, the study does not indicate a causal relationship between the processes. Choice B is the correct answer as it accurately reflects this limitation of the study's findings.
What type of tissue largely makes up the pharynx?
- A. Bone
- B. Muscle
- C. Nervous
- D. Cartilage
Correct Answer: B
Rationale: The pharynx is mostly composed of muscle tissue, which enables it to carry out functions like swallowing and breathing. Muscles in the pharynx contract to propel food into the esophagus during swallowing and aid in vocalization and respiration.
Which of the following correctly orders structures from simple to complex?
- A. Cells, tissues, atoms, organs
- B. Atoms, cells, tissues, organs
- C. Atoms, organs, tissues, cells
- D. Organs, tissues, cells, atoms
Correct Answer: B
Rationale: The correct order of structures from simple to complex is atoms, cells, tissues, and organs. Atoms are the fundamental units of matter. Cells are the basic units of life composed of atoms. Tissues are formed by groups of cells working together. Organs consist of different tissues functioning together for specific purposes. Therefore, the correct sequence goes from the simplest structure, atoms, to the most complex structure, organs.
Which type of joint is the hip an example of?
- A. Hinge
- B. Gliding
- C. Ball-and-socket
- D. Pivot
Correct Answer: C
Rationale: The correct answer is C: Ball-and-socket. The hip joint is a ball-and-socket joint, allowing for a wide range of motion in multiple directions. This joint type permits flexion, extension, abduction, adduction, and rotation. Hinge joints, like the knee, allow movement in one plane, similar to a door hinge. Gliding joints permit limited sliding movements. Pivot joints allow rotation around a single axis.
Why is nitrogen gas an extremely stable molecule?
- A. resonance bonds
- B. ionic bonds
- C. triple covalent bonds
- D. hydrogen bonds
Correct Answer: C
Rationale: The correct answer is C - triple covalent bonds. Nitrogen gas (N2) is composed of two nitrogen atoms held together by a triple covalent bond. This bond is very strong and requires a significant amount of energy to break, making nitrogen gas a stable molecule. Triple covalent bonds involve the sharing of three pairs of electrons, resulting in a very stable configuration. Resonance bonds, ionic bonds, and hydrogen bonds are not present in the structure of nitrogen gas, hence they do not contribute to its stability.