Test Bank For Exercise physiology : nutrition, energy, and human performance, 8th Edition

2 1. The term homeostasis is defined as A. a constant metabolic demand placed upon the body. B. the maintenance of a constant internal environment. C. a low metabolic rate. D. a change within the internal environment. 2. Physiologists use the term steady state to denote A. a steady and unchanging level of a physiological variable. B. a completely normal external environment. C. a changing internal environment. D. an increase in body heat storage. 3. A series of interconnected components that serve to maintain a physical or chemical parameter of the body near a constant value is A. homeostasis. B. steady state. C. a biological control system. D. none of the above. 4. The general components of a biological control system are the A. receptor, integrating center, and response. B. receptor, integrating center, and effector. C. effector, control box, and stimulus. D. receptor and integrating center. 5. Most control systems of the body operate via A. positive feedback. B. low-gain receptors. C. negative feedback. D. feed forward mechanisms. 6. The gain of a biological control system can be thought of as the A. amount of amplification of the system or the precision with which the control system maintains homeostasis. B. ratio of the amount of abnormality to the amount of correction needed to maintain a constant internal environment (i.e., amount abnormality/amount of correction needed). C. positive feedback needed to maintain homeostasis. D. stimulus that triggers the biological control system to bring the internal environment back to normal. 7. In negative feedback, the response of the system is A. to increase the gain of the receptor. B. to modify the receptor’s response to the stimulus. C. opposite to that of the stimulus. D. to enhance the stimulus. 8. During 60 minutes of constant-load submaximal exercise, the body temperature reaches a plateau after 35-45 minutes. This is an example of A. homeostasis. B. effector. C. steady state. D. changing internal environment. 9. The precision with which a control system maintains homeostasis is termed A. positive feedback. B. negative feedback. C. set point. D. gain. 10. Stress proteins that are manufactured by cells in response to exercise A. can lead to an increased production of free radicals. B. can lead to further disruptions in homeostasis. C. can lead to an increased degree of cellular injury. D. can help to repair damage caused by free radicals. 11. Because of complex control systems, the body always maintains homeostasis, even during exercise. A. true B. false 12. Which of the following is an example of positive feedback? A. regulation of blood glucose B. regulation of body temperature C. labor contractions during childbirth D. the cellular stress protein response 13. Which of the following would occur in response to elevated blood glucose to maintain homeostasis? A. decreased insulin secretion from the pancreas B. increased uptake of glucose by cells C. continued elevation of blood glucose D. all of the above 14. The effectors in the response to increased body temperature include A. cutaneous blood vessels and sweat glands. B. cutaneous blood vessels and skeletal muscle. C. baroreceptors. D. stretch receptors. 2 Key 1. The term homeostasis is defined as A. a constant metabolic demand placed upon the body. B. the maintenance of a constant internal environment. C. a low metabolic rate. D. a change within the internal environment. Powers – Chapter 02 #1 2. Physiologists use the term steady state to denote A. a steady and unchanging level of a physiological variable. B. a completely normal external environment. C. a changing internal environment. D. an increase in body heat storage. Powers – Chapter 02 #2 3. A series of interconnected components that serve to maintain a physical or chemical parameter of the body near a constant value is A. homeostasis. B. steady state. C. a biological control system. D. none of the above. Powers – Chapter 02 #3 4. The general components of a biological control system are the A. receptor, integrating center, and response. B. receptor, integrating center, and effector. C. effector, control box, and stimulus. D. receptor and integrating center. Powers – Chapter 02 #4 5. Most control systems of the body operate via A. positive feedback. B. low-gain receptors. C. negative feedback. D. feed forward mechanisms. Powers – Chapter 02 #5 6. The gain of a biological control system can be thought of as the A. amount of amplification of the system or the precision with which the control system maintains homeostasis. B. ratio of the amount of abnormality to the amount of correction needed to maintain a constant internal environment (i.e., amount abnormality/amount of correction needed). C. positive feedback needed to maintain homeostasis. D. stimulus that triggers the biological control system to bring the internal environment back to normal. Powers – Chapter 02 #6 7. In negative feedback, the response of the system is A. to increase the gain of the receptor. B. to modify the receptor’s response to the stimulus. C. opposite to that of the stimulus. D. to enhance the stimulus. Powers – Chapter 02 #7 8. During 60 minutes of constant-load submaximal exercise, the body temperature reaches a plateau after 35-45 minutes. This is an example of A. homeostasis. B. effector. C. steady state. D. changing internal environment. Powers – Chapter 02 #8 9. The precision with which a control system maintains homeostasis is termed A. positive feedback. B. negative feedback. C. set point. D. gain. Powers – Chapter 02 #9 10. Stress proteins that are manufactured by cells in response to exercise A. can lead to an increased production of free radicals. B. can lead to further disruptions in homeostasis. C. can lead to an increased degree of cellular injury. D. can help to repair damage caused by free radicals. Powers – Chapter 02 #10 11. Because of complex control systems, the body always maintains homeostasis, even during exercise. A. true B. false Powers – Chapter 02 #11 12. Which of the following is an example of positive feedback? A. regulation of blood glucose B. regulation of body temperature C. labor contractions during childbirth D. the cellular stress protein response Powers – Chapter 02 #12 13. Which of the following would occur in response to elevated blood glucose to maintain homeostasis? A. decreased insulin secretion from the pancreas B. increased uptake of glucose by cells C. continued elevation of blood glucose D. all of the above Powers – Chapter 02 #13 14. The effectors in the response to increased body temperature include A. cutaneous blood vessels and sweat glands. B. cutaneous blood vessels and skeletal muscle. C. baroreceptors. D. stretch receptors. Powers – Chapter 02 #14 2 Summary Category Powers – Chapter 02 # of Questions 14