Exercise Physiology Final

92 Questions | Total Attempts: 14

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Exercise Physiology Final

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Questions and Answers
  • 1. 
    (Ve=f x TV) is the computation for:
    • A. 

      Resting HR

    • B. 

      Hyperventilation

    • C. 

      Minute Ventilation

    • D. 

      Breaths per sec

  • 2. 
    63% of the Cardiac Cycle duration is:
    • A. 

      Systole

    • B. 

      HR

    • C. 

      Diastole

    • D. 

      VO2

  • 3. 
    Anatomical Dead Space is defined as:
    • A. 

      The ambient air that remains in larger air passages

    • B. 

      The ambient air that remains in smaller air passages

    • C. 

      The ambient air that remains in all air passages

    • D. 

      The ambient air that remains in the blood

  • 4. 
    Arterioles within organs or tissues dilate or constrict in response to the local chemical environment is known as?
    • A. 

      Autoregulation

    • B. 

      Extrinsic neural control

    • C. 

      Intrinsic neural control

    • D. 

      RMR

  • 5. 
    Blood Distribution is determined by:
    • A. 

      Balance between arterial pressure and total peripheral resistance

    • B. 

      Balance between mean arterial pressure and total semiperipheral resistance

    • C. 

      Balance between mean arterial pressure and total peripheral fatigue

    • D. 

      Balance between mean arterial pressure and total peripheral resistance

  • 6. 
    Blood pH decreases due to increased blood lactate accumulation with increasing exercise intensity is known as?
    • A. 

      Acid-Base Change

    • B. 

      Acid-Peak Change

    • C. 

      Metabolic-Base Change

    • D. 

      Lactate-Peak Change

  • 7. 
    Blood Plasma Volume during Exercise:
    • A. 

      Is Reduced with onset of exercise

    • B. 

      Excessive loss can result in increased performance

    • C. 

      More is gained if exercise results in sweating

    • D. 

      Is measured to calculate BMI

  • 8. 
    Blood pressure is defined as:
    • A. 

      Pressure exerted by blood against the ventricle walls

    • B. 

      Pressure exerted by blood against the atrium walls

    • C. 

      Pressure exerted by blood against the artery walls

    • D. 

      Volume exerted by blood against the artery walls

  • 9. 
    CO and Acute Exercise Intensity:
    • A. 

      Increases directly with increasing exercise intensity to maximal values of between 20 to 40 L/min

    • B. 

      Increases directly with increasing exercise intensity to maximal values of between 15 to 35 L/min

    • C. 

      Increases directly with increasing exercise intensity to maximal values of between 20 to 40 mL/min

    • D. 

      Increases directly with decreasing exercise intensity to maximal values of between 20 to 40 L/min

  • 10. 
    Define AVO2 difference:
    • A. 

      Amount of oxygen extracted from the blood as it travels through the body

    • B. 

      Amount of plasma extracted from the blood as it travels through the body

    • C. 

      Amount of CO2 extracted from the blood as it travels through the body

    • D. 

      Amount of hemoglobin extracted from the blood as it travels through the body

  • 11. 
    Define Cardiac Cycle
    • A. 

      Events that occur between two consecutive heart beats (systole to systole)

    • B. 

      Events that occur between two consecutive heart beats (systole to diastole)

    • C. 

      Events that occur between one consecutive heart beats (systole to systole)

    • D. 

      Events that occur between three consecutive heart beats (systole to systole)

  • 12. 
    Define Cardiac Output
    • A. 

      Total pressure of blood pumped by the ventricle per minute

    • B. 

      Total volume of blood pumped by the ventricle per minute

    • C. 

      Total volume of blood pumped by the ventricle per second

    • D. 

      Total volume of blood pumped by the atrium per minute

  • 13. 
    Define Diastolic Blood Pressure:
    • A. 

      The pressure exerted by blood against the artery walls during heart relaxation. The lowest pressure

    • B. 

      The volume exerted by blood against the artery walls during heart relaxation. The lowest pressure

    • C. 

      The pressure exerted by blood against the artery walls during heart relaxation. The highest pressure

    • D. 

      The pressure exerted by blood against the vascular walls during heart contraction. The lowest pressure

  • 14. 
    Define EDV and ESV:
    • A. 

      Volume of blood in ventricle before contraction: After contraction

    • B. 

      Volume of blood in ventricle after contraction: Before contraction

    • C. 

      Pressure of blood in ventricle before contraction: After contraction

    • D. 

      Systolic blood in ventricle before contraction: After contraction

  • 15. 
    Define Respiration:
    • A. 

      Removal of oxygen to and delivery of carbon dioxide from the tissue

    • B. 

      Delivery of oxygen to and delivery of carbon dioxide from the tissue

    • C. 

      Delivery of oxygen to and removal of carbon dioxide from the tissue

    • D. 

      Removal of oxygen to and removal of carbon dioxide from the tissue

  • 16. 
    Define Stroke Volume
    • A. 

      Volume of blood pumped per contraction

    • B. 

      Pressure of blood pumped per contraction

    • C. 

      Max Volume of blood pumped per contraction

    • D. 

      Volume of plasma pumped per contraction

  • 17. 
    Diastole ECG:
    • A. 

      P Wave to QRS

    • B. 

      QRS to T Wave

    • C. 

      QRS to ECG

    • D. 

      T Wave to QRS

  • 18. 
    During Heavy Exercise:
    • A. 

      Excess pH impairs muscle contractility and ATP formation

    • B. 

      Excess VO2 impairs muscle contractility and ATP formation

    • C. 

      Excess O2 impairs muscle contractility and ATP formation

    • D. 

      Excess H+ impairs muscle contractility and ATP formation

  • 19. 
    During resistance exercise SBP and DBP:
    • A. 

      BP decreases as high as 480/350 mmHg

    • B. 

      BP increases as high as 380/450 mmHg

    • C. 

      BP increases as high as 480/350 mmHg

    • D. 

      BP increases as high as 450/340 mmHg

  • 20. 
    Exchange of gases at the tissue level (between blood and tissues) is known as:
    • A. 

      Internal respiration

    • B. 

      External respiration

    • C. 

      Intrinsic respiration

    • D. 

      Extrinsic respiration

  • 21. 
    Hemoglobin Concentration in men=
    • A. 

      13-19g of Hb/100 ml blood

    • B. 

      12-18g of Hb/100 ml blood

    • C. 

      13-18g of Hb/100 L blood

    • D. 

      13-18g of Hb/100 ml blood

  • 22. 
    How can HRmax be calculated?
    • A. 

      220-age in years

    • B. 

      208-(0.6 x age)

    • C. 

      220-age in months

    • D. 

      207-(0.7 x age)

  • 23. 
    How to calculate AVO2 difference:
    • A. 

      The difference between the oxygen content of arterial blood and venous blood

    • B. 

      The difference between the carbon dioxide content of arterial blood and venous blood

    • C. 

      The difference between the oxygen content of arterial blood and volume of blood

    • D. 

      The difference between the oxygen content of ventricle blood and venous blood

  • 24. 
    How to you compute Cardiac Output?
    • A. 

      Q=HR/SV

    • B. 

      Q=HR x SV

    • C. 

      Q=SV/HR

    • D. 

      Q=SV+HR

  • 25. 
    Hyperventilation is defined as:
    • A. 

      Decrease in ventilation that exceeds the metabolic need for oxygen

    • B. 

      Increase in ventilation that exceeds the metabolic need for carbon dioxide

    • C. 

      Increase in blood flow that exceeds the metabolic need for oxygen

    • D. 

      Increase in ventilation that exceeds the metabolic need for oxygen

  • 26. 
    In inspiration, external intercostals make up _____ and the diaphragm makes up ______ of volume of air inspired.
    • A. 

      65% and 35%

    • B. 

      70% and 30%

    • C. 

      30% and 70%

    • D. 

      75% and 45%

  • 27. 
    In Vigorous Exercise V=50br/min x 3.0 l/br what is the answer?
    • A. 

      V=150 mL/min

    • B. 

      V=150 L/sec

    • C. 

      V=150 mL/sec

    • D. 

      V=150 L/min

  • 28. 
    Increased H+ and temperature of a muscle allows:
    • A. 

      More oxygen to be unloaded

    • B. 

      Less oxygen to be unloaded

    • C. 

      More carbon dioxide to be unloaded

    • D. 

      Less carbon dioxide to be unloaded

  • 29. 
    Maximal Heart Rate
    • A. 

      Remains constant day to day and changes slightly from month to month

    • B. 

      Remains constant day to day and changes greatly from year to year

    • C. 

      Remains constant day to day and changes slightly from year to year

    • D. 

      Remains constant from year to year

  • 30. 
    Point during intense exercise at which metabolism becomes increasingly more anaerobic is known as:
    • A. 

      Anaerobic Threshold

    • B. 

      Aerobic Threshold

    • C. 

      Lacate Threshold

    • D. 

      Anaerobic Breakpoint

  • 31. 
    Pulmonary diffusion is defined as:
    • A. 

      Exchange of carbon dioxide and hemoglobin between the lungs and blood

    • B. 

      Exchange of oxygen and carbon dioxide between the lungs and blood

    • C. 

      Exchange of oxygen and carbon dioxide between the heart and blood

    • D. 

      Exchange of oxygen and carbon dioxide between the lungs and heart

  • 32. 
    Reduction in blood plasma volume results in hemoconcentration leads to:
    • A. 

      Lower Blood Viscocity

    • B. 

      Increases HR

    • C. 

      None of the answers

    • D. 

      Higher Blood Viscocity

  • 33. 
    Relaxation phase during which the chambers fill with blood is known as:
    • A. 

      Systole

    • B. 

      EDV

    • C. 

      HR

    • D. 

      Diastole

  • 34. 
    Respiratory muscles are:
    • A. 

      More resistant to fatigue during long-term activity than muscles of the extremities

    • B. 

      Less resistant to fatigue during long-term activity than muscles of the extremities

    • C. 

      More resistant to fatigue during short-term activity than muscles of the extremities

    • D. 

      Less resistant to fatigue during short-term activity than muscles of the extremities

  • 35. 
    Shortness of breath is known as:
    • A. 

      Anorexia

    • B. 

      Hyperventilation

    • C. 

      Dyspnea

    • D. 

      Coughing

  • 36. 
    SV depending of position of body during exercise is known as
    • A. 

      Magnitude of Change

    • B. 

      Rate of Change

    • C. 

      EDV

    • D. 

      T Wave

  • 37. 
    SV Response to exercise determines:
    • A. 

      Cardiorespiratory endurance capacity at maximal rates of work

    • B. 

      Cardiorespiratory endurance capacity at submaximal rates of work

    • C. 

      Cardiovascular endurance capacity at maximal rates of work

    • D. 

      Cardiorespiratory at maximal rates of work

  • 38. 
    SV response to exercise rate increases:
    • A. 

      Up to intensities of 35-45% of max or higher

    • B. 

      Up to intensities of 40-60% of max or higher

    • C. 

      Up to intensities of 20-40% of max or higher

    • D. 

      Up to intensities of 45-65% of max or higher

  • 39. 
    Sympathetic nerves within walls of vessels are stimulated causing vessels to constrict is known as?
    • A. 

      Intrinsic neural control

    • B. 

      Autoregulation

    • C. 

      Expire neural control

    • D. 

      Extrinsic neural control

  • 40. 
    Systole:
    • A. 

      Contraction phase during which the chambers expel blood

    • B. 

      Contraction phase during which the chambers intake blood

    • C. 

      Relaxation phase during which the chambers expel blood

    • D. 

      Contraction phase during which the chambers expel plasma

  • 41. 
    Systolic BP
    • A. 

      Decreases in direct proportion to increased exercise intensity

    • B. 

      Increases in direct proportion to increased exercise intensity

    • C. 

      Increases in direct proportion to decreased exercise intensity

    • D. 

      Decreases in indirect proportion to increased exercise intensity

  • 42. 
    The greater the pressure gradient:
    • A. 

      The more rapidly oxygen diffuses across it

    • B. 

      The more slowly oxygen diffuses across it

    • C. 

      The more rapidly carbon dioxide diffuses across it

    • D. 

      The more slowly blood diffuses across it

  • 43. 
    The point during intense exercise at which ventilation increases disproportionately to the oxygen consumption is known as:
    • A. 

      Hyperventilation

    • B. 

      Lactate Threshold

    • C. 

      Ventilation Threshold

    • D. 

      Ventilatory Breakpoint

  • 44. 
    The pressure exerted by the blood against the artery walls during heart contraction: the highest pressure is known as?
    • A. 

      Diastolic blood pressure

    • B. 

      Systole

    • C. 

      Diastole

    • D. 

      Systolic blood pressure

  • 45. 
    Two types of recovery are?
    • A. 

      Passive & Active

    • B. 

      Passive & Slow

    • C. 

      Active & Oxidative

    • D. 

      Passive & Sympathetic

  • 46. 
    Valsalva maneuver is defined as:
    • A. 

      A breathing technique to trap and pressurize blood in the heart to allow the exertion of greater force

    • B. 

      A breathing technique to trap and pressurize air in the lungs to allow the exertion of greater force

    • C. 

      A breathing technique to trap and pressurize blood in the lungs to allow the exertion of greater force

    • D. 

      A breathing technique to release and pressurize air in the lungs to allow the exertion of greater force

  • 47. 
    Ventilation and exchange of gases in the lung is known as:
    • A. 

      External respiration

    • B. 

      Internal respiration

    • C. 

      Extrinsic respiration

    • D. 

      Intrinsic respiration

  • 48. 
    VO2=Q x a-vo2diff is what equation?
    • A. 

      Fick Equation

    • B. 

      Bernings Equation

    • C. 

      MmHg Equation

    • D. 

      HMH Equation

  • 49. 
    What causes the decreased total peripheral resistance?
    • A. 

      Due to decreased vasodilation of blood vessels to active muscles

    • B. 

      Due to increased vasodilation of blood vessels to passive muscles

    • C. 

      Due to increased ventilation of blood vessels to active muscles

    • D. 

      Due to increased vasodilation of blood vessels to active muscles

  • 50. 
    What helps buffer H+ to prevent acidosis?
    • A. 

      Carbonate ions

    • B. 

      CHO

    • C. 

      Bicarbonate ions

    • D. 

      Proteins

  • 51. 
    What is the computation for Mean Arterial Pressure:
    • A. 

      DBP+(0.333x(SBP-DBP))

    • B. 

      SBP+(0.333x(SBP-DBP))

    • C. 

      DBP-(0.333x(SBP-DBP))

    • D. 

      DBP+(0.333x(SBP+DBP))

  • 52. 
    What is the Frank Starling mechanism?
    • A. 

      Less blood in the ventricle causes it to stretch more and contract with more force

    • B. 

      More blood in the ventricle causes it to shrink more and contract with more force

    • C. 

      More blood in the ventricle causes it to stretch more and relax with more force

    • D. 

      More blood in the ventricle causes it to stretch more and contract with more force

  • 53. 
    What is the resting value of Cardiac Output
    • A. 

      Approx 5.5L/min

    • B. 

      Approx 5.0mL/min

    • C. 

      Approx 5.0L/min

    • D. 

      Approx 5.0L/sec

  • 54. 
    When exercise intensity exceeds 40% to 60%:
    • A. 

      Further increases in Q are more a result of increases in HR than SV since SV tends to plateau at higher work rates

    • B. 

      Further decreases in Q are more a result of increases in HR than SV since SV tends to plateau at higher work rates

    • C. 

      Further increases in Q are more a result of decreases in HR than SV since SV tends to plateau at higher work rates

    • D. 

      Further increases in Q are more a result of increases in SV than HR since HR tends to plateau at higher work rates

  • 55. 
    When work rate exceeds 55% to 70% of VO2max:
    • A. 

      Hemoglobin delivery can no longer match the energy requirements and energy must be derived from anaerobic glycolysis

    • B. 

      Oxygen delivery can no longer match the energy requirements and energy must be derived from anaerobic glycolysis

    • C. 

      Oxygen delivery can no longer match the energy requirements and energy must be derived from aerobic glycolysis

    • D. 

      Oxygen delivery easily matches the energy requirements and energy must be derived from anaerobic glycolysis

  • 56. 
    Muscular Endurance is defined as:
    • A. 

      Ability of a muscle to fatigue after repetitive or static exercise that occurs in repeated 1 to 2 minute bursts

    • B. 

      Ability of a single muscle or muscle group to sustain repetitive or static exercise that occurs in repeated 1 to 2 second bursts

    • C. 

      Ability of a single muscle or muscle group to sustain repetitive or static exercise that occurs in repeated 1 to 2 minute bursts

    • D. 

      Ability of a single lung or both lungs to sustain repetitive or static exercise that occurs in repeated 1 to 2 minute bursts

  • 57. 
    Muscular endurance is enhanced by:
    • A. 

      Muscular strength and aerobic development

    • B. 

      Muscular strength and anaerobic development

    • C. 

      Muscular flexibility and anaerobic development

    • D. 

      Muscular strength and VO2max development

  • 58. 
    CV Endurance is defined as:
    • A. 

      Ability of a single limb on the body to sustain prolonged steady-state exercise

    • B. 

      Ability of the whole body to sustain prolonged high intensity exercise

    • C. 

      Ability of the whole body to sustain short steady-state exercise

    • D. 

      Ability of the whole body to sustain prolonged steady-state exercise

  • 59. 
    Which of the following is enhanced by training of the cardiovascular and respiratory systems?
    • A. 

      CV endurance

    • B. 

      Muscular endurance

    • C. 

      SV endurance

    • D. 

      QRS endurance

  • 60. 
    All of the following are true about VO2max EXCEPT:
    • A. 

      Measured through testing

    • B. 

      Increased with training

    • C. 

      Used to estimate ventilatory breakpoint

    • D. 

      Used to estimate lacate threshold

  • 61. 
    Which of the following changes the most in response to endurance training?
    • A. 

      Right Ventricle

    • B. 

      Right Atrium

    • C. 

      Left Atrium

    • D. 

      Left Ventricle

  • 62. 
    Resting heart rate:
    • A. 

      Decreases with endurance training

    • B. 

      Increases with endurance training

    • C. 

      Decreases with strength training

    • D. 

      Increases with strength training

  • 63. 
    Which of the following are causes of a decrease in resting heart rate:
    • A. 

      Less blood returning to heart

    • B. 

      Less blood leaving the heart

    • C. 

      More blood leaving the heart

    • D. 

      More blood returning to heart

  • 64. 
    HR Recovery Post-Exercise Adaptation to Exercise is defined as:
    • A. 

      The time it takes your heart to return to its max rate after exercise

    • B. 

      The time it takes your heart to return to its resting rate after exercise

    • C. 

      The time it takes your heart to return to its teady-state rate after exercise

    • D. 

      The time it takes your heart to return to its resting rate before exercise

  • 65. 
    What is the SVrest of an Untrained, Trained and Highly Trained individual?
    • A. 

      45-65, 65-85, 90-110

    • B. 

      50-70, 70-100, 100-110

    • C. 

      50-70, 70-90, 90-110

    • D. 

      40-60,60-80, 80-100

  • 66. 
    Absolute values of CO-max of untrained, trained and endurance athletes?
    • A. 

      14 to 20 L/min, 25 to 35 L/min, 40 L/min

    • B. 

      14 to 20 mL/min, 25 to 35 mL/min, 40 L/min

    • C. 

      14 to 20 mL/min, 25 to 35 mL/min, 40 mL/min

    • D. 

      14 to 30 L/min, 25 to 35 L/min, 40 L/min

  • 67. 
    Lets say we have a 20 y.o. individual who is highly aerobically trained and Assume he has about 5 liters of blood. What is the persons RHR, SV and CO? 
    • A. 

      50 bpm, 110 l/beat, 5500 l/min

    • B. 

      50 bpm, 110 ml/beat, 5500 ml/min

    • C. 

      50 bpm, 118 ml/beat, 5700 ml/min

    • D. 

      80 bpm, 210 ml/beat, 6500 ml/min

  • 68. 
    During endurance training:
    • A. 

      SBP increases and DBP decreases slightly or remains constant at maximal work rates

    • B. 

      SBP decreases and DBP decreases slightly or remains constant at maximal work rates

    • C. 

      SBP increases and DBP increases slightly or remains constant at maximal work rates

    • D. 

      SBP decreases and DBP increases slightly or remains constant at maximal work rates

  • 69. 
    In VO2max inreases w/training, A-vO2diff plays a key role because:
    • A. 

      More effective distribution of arterial blood away from active tissue to the inactive tissue

    • B. 

      More effective distribution of ventricle blood away from inactive tissue to the active tissue

    • C. 

      Less effective distribution of arterial blood away from inactive tissue to the active tissue

    • D. 

      More effective distribution of arterial blood away from inactive tissue to the active tissue

  • 70. 
    The respiratory system is seldom a:
    • A. 

      Limiter of endurance performance

    • B. 

      Enhancer of endurance performance

    • C. 

      Limiter of strength performance

    • D. 

      Limiter of aerobic performance

  • 71. 
    Respiratory exchange ratio:
    • A. 

      Decreases for submaximal efforts, increases at maximal levels

    • B. 

      Increases for submaximal efforts, increases at maximal levels

    • C. 

      Increases for submaximal efforts, decreases at maximal levels

    • D. 

      Decreases for submaximal efforts, decreases at maximal levels

  • 72. 
    It is estimated that ____ of children will be obese by 2015
    • A. 

      24%

    • B. 

      34%

    • C. 

      15%

    • D. 

      50%

  • 73. 
    ____ of New Mexico adults are overweight or obese
    • A. 

      48%

    • B. 

      50%

    • C. 

      53%

    • D. 

      58%

  • 74. 
    Obese people pay how much more than non-obese individuals in terms of health care?
    • A. 

      14-16%

    • B. 

      13-15%

    • C. 

      14-17%

    • D. 

      13-17%

  • 75. 
    Hypertension is defines as:
    • A. 

      Stress

    • B. 

      High blood pressure (BP)

    • C. 

      High blood volume

    • D. 

      High Stroke Volume

  • 76. 
    Hypertension is more common in underweight individuals than overweight.
    • A. 

      True

    • B. 

      False

  • 77. 
    When does atherosclerosis begin?
    • A. 

      Childhood

    • B. 

      Infancy

    • C. 

      Adolescence

    • D. 

      Puberty

  • 78. 
    Obese children have a 2.4x greater risk of:
    • A. 

      Decreased LDL, Elevated HDL

    • B. 

      Elevated LDL, Decreased HDL

    • C. 

      Elevated LDL, Elevated HDL

    • D. 

      Decreased LDL, Decreased HDL

  • 79. 
    Obesity occurs in one or combination of two ways:
    • A. 

      Fat Cell Size, Fat Cell Quality

    • B. 

      Fat Cells, CHO

    • C. 

      Hypertrophic obesity, hyperplastic obesity

    • D. 

      Triglycerides

  • 80. 
    Fat cell quantity is determined during three critical periods, which are:
    • A. 

      First Trimester, First year of life, Puberty

    • B. 

      Last month of pregnancy, first month of life, toddler

    • C. 

      Last Trimester, First month of life, Adolescence

    • D. 

      Last Trimester, First year of life, Adolescence

  • 81. 
    For every gram of CHO used, how many grams of water are lost?
    • A. 

      2.8g

    • B. 

      2.6 g

    • C. 

      3.6g

    • D. 

      2.9g

  • 82. 
    Ketosis is defined as:
    • A. 

      Building fats from energy

    • B. 

      Breaking down CHO into fats

    • C. 

      Breaking down fats into energy

    • D. 

      Breaking down fats into sugar

  • 83. 
    Body Composition Defined:
    • A. 

      Chemical components of the human body

    • B. 

      Physical components of the human body

    • C. 

      CHO, Proteins

    • D. 

      Composing of energy from fat

  • 84. 
    Fat-free mass is composed of all of the bodys:
    • A. 

      Fat tissue

    • B. 

      Connective Tissue

    • C. 

      Bone Tissue

    • D. 

      Nonfat tissue

  • 85. 
    What includes all fat-free along with essential fat?
    • A. 

      Fat-Free Mass

    • B. 

      Lean Body Mass

    • C. 

      Fat Mass

    • D. 

      Essential Mass

  • 86. 
    Maximizing fat-free mass is:
    • A. 

      Desirable for strength, power and muscular endurance

    • B. 

      Desirable for endurance or jumping sports if result is a gain in weight

    • C. 

      Undesirable for strength, power, and muscular endurance

    • D. 

      Minimizing relative body fat

  • 87. 
    Which is a Consequence of Dehydration
    • A. 

      Increased Blood Volume

    • B. 

      Increased Blood Pressure

    • C. 

      Increased sub-maximal heart rate

    • D. 

      Increased Cardiac Output

  • 88. 
    What are the types of menstrual dysfunction?
    • A. 

      Anorexia, Bulimia, Loss of Bone Density

    • B. 

      Delayed Menarche, Bulimia, Anorexia

    • C. 

      Binge eating, Amenorrhea, Oligomenorrhea

    • D. 

      Oligomenorrhea, Amenorrhea, Delayed Menarche

  • 89. 
    Average % body fat for men and women
    • A. 

      15% and 23%

    • B. 

      25% and 35%

    • C. 

      10% and 20%

    • D. 

      15% and 25%

  • 90. 
    High BMI is directly related to:
    • A. 

      Type II Diabetes

    • B. 

      Hypertrophy

    • C. 

      Colon cancer

    • D. 

      SV threshold

  • 91. 
    A person who weighs 68.0 kg and is 1.74 m in height has a BMI of:
    • A. 

      22.44

    • B. 

      22

    • C. 

      22.4

    • D. 

      23

  • 92. 
    What is the ideal weight of a man who weighs 70kg (estimated to be 20% fat)
    • A. 

      68.5kg

    • B. 

      58.6kg

    • C. 

      65.8kg

    • D. 

      56.8kg