2024-04-05T16:53:20+03:00[Europe/Moscow] en true <p>the<strong> breathing rate and frequency</strong> ____________ with the onset of exercise in an individual that has gone from rest to exercising at a steady pace of 3.0 mph for 12 minutes on the treadmill because a ________ ________ involves ________ energy systems and the constant supply of _______ to __________ tissues</p>, <p>the <strong>tidal volume __________</strong> with the onset of exercise in an individual that has gone from rest to exercising at a steady pace of 3.0 mph for 12 minutes on the treadmill to direct more __________ to ___________ tissues</p>, <p><strong>ventilation _____________ </strong>with the onset of exercise in an individual that has gone from rest to exercising at a steady pace of 3.0 mph for 12 minutes on the treadmill because both ____________ _____ and ______ __________ increase during the onset of exercise to satisfy __________ _________ oxygen needs</p>, <p>the<strong> VO2 </strong>___________ then ___________ with the onset of exercise in an individual that has gone from rest to exercising at a steady pace of 3.0 mph for 12 minutes on the treadmill as _________ ________ meets _________ ________ at __________ the tissue sites</p>, <p>the <strong>VCO2</strong> ___________ then ___________ with the onset of exercise in an individual that has gone from rest to exercising at a steady pace of 3.0 mph for 12 minutes on the treadmill as _________ _________ meets __________ _________ at __________ tissue sites causing a ___________ ________ of ____ production </p>, <p>what is the <strong>acute respiratory response</strong> to <strong>tidal volume</strong> during <strong>submaximal exercise</strong>? </p><p></p><p>it __________ because __________ _________ increases during exercise in direct proportion to ____________ needs of exercising muscle, this is supported by an increase in _________ ________ through the contraction of the __________ and _________ _________ muscles</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>tidal volume</strong> during <strong>maximal exercise</strong>? </p><p></p><p>tidal volume __________ because the body can only ________ so much air due to the __________ __________ of the lungs</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>breathing rate</strong> during <strong>submaximal exercise</strong>? </p><p></p><p>breathing rate ___________ because __________ __________ increases in direct proportion to __________ tissue needs</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>breathing rate</strong> during <strong>maximal exercise</strong>? </p><p></p><p>breathing rate __________ to support the increase in _________ __________ as the _______ ________ plateaus due to physical limitations in size of the lungs</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>ventilation</strong> during <strong>submaximal exercise</strong>? </p><p></p><p>ventilation _____________ as it is the result of __________ _________ multiplied by _________ _________ and both increase to facilitate the __________ tissue sites</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>ventilation</strong> during <strong>maximal exercise</strong>? </p><p></p><p>ventilation _____________ as it is the result of __________ _________ multiplied by _________ _________ and both increase to facilitate the __________ tissue sites</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>pulmonary diffusion</strong> during <strong>submaximal exercise</strong>? </p><p></p><p>pulmonary diffusion increases as __________ increases during exercise causing a _________ gradient of ____ for enhanced __________ across the __________ ___________</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>pulmonary diffusion</strong> during <strong>maximal exercise</strong>? </p><p>pulmonary diffusion increases as __________ increases during exercise causing a _________ gradient of ____ for enhanced __________ across the __________ ___________</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>A-VO2 difference </strong>during <strong>submaximal exercise</strong>? </p><p></p><p>the A-VO2 difference __________ as more oxygen is unloaded from _______________ decreasing the amount of oxygen in ______ _____</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>A-VO2 difference</strong> during <strong>maximal exercise</strong>? </p><p></p><p>the A-VO2 difference __________ as more oxygen is unloaded from _______________ decreasing the amount of oxygen in ______ _____</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>capillary diffusion</strong> during <strong>submaximal exercise</strong>? </p><p></p><p>capillary diffusion _____________ as the demand for __________ increases at ___________ tissue sites</p>, <p>what is the <strong>acute respiratory response</strong> to <strong>capillary diffusion</strong> during <strong>maximal exercise</strong>? </p><p></p><p>capillary diffusion _____________ as the demand for __________ increases at ___________ tissue sites</p> flashcards
exercise physiology test 2

exercise physiology test 2

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  • the breathing rate and frequency ____________ with the onset of exercise in an individual that has gone from rest to exercising at a steady pace of 3.0 mph for 12 minutes on the treadmill because a ________ ________ involves ________ energy systems and the constant supply of _______ to __________ tissues

    increases

    steady state

    aerobic

    oxygen

    metabolic

  • the tidal volume __________ with the onset of exercise in an individual that has gone from rest to exercising at a steady pace of 3.0 mph for 12 minutes on the treadmill to direct more __________ to ___________ tissues

    increases

    oxygen

    metabolic

  • ventilation _____________ with the onset of exercise in an individual that has gone from rest to exercising at a steady pace of 3.0 mph for 12 minutes on the treadmill because both ____________ _____ and ______ __________ increase during the onset of exercise to satisfy __________ _________ oxygen needs

    increases

    breathing rate

    tidal volume

    steady state

  • the VO2 ___________ then ___________ with the onset of exercise in an individual that has gone from rest to exercising at a steady pace of 3.0 mph for 12 minutes on the treadmill as _________ ________ meets _________ ________ at __________ the tissue sites

    increases

    plateaus

    oxygen supply

    oxygen demand

    metabolic

  • the VCO2 ___________ then ___________ with the onset of exercise in an individual that has gone from rest to exercising at a steady pace of 3.0 mph for 12 minutes on the treadmill as _________ _________ meets __________ _________ at __________ tissue sites causing a ___________ ________ of ____ production

    increases

    plateaus

    oxygen supply

    oxygen demand

    metabolic

    steady state

    CO2

  • what is the acute respiratory response to tidal volume during submaximal exercise?

    it __________ because __________ _________ increases during exercise in direct proportion to ____________ needs of exercising muscle, this is supported by an increase in _________ ________ through the contraction of the __________ and _________ _________ muscles

    increases

    pulmonary ventilation

    metabolic

    tidal volume

    diaphragm

    external intercostal

  • what is the acute respiratory response to tidal volume during maximal exercise?

    tidal volume __________ because the body can only ________ so much air due to the __________ __________ of the lungs

    plateaus

    inspire

    physical limitations

  • what is the acute respiratory response to breathing rate during submaximal exercise?

    breathing rate ___________ because __________ __________ increases in direct proportion to __________ tissue needs

    increase

    pulmonary ventilation

    metabolic

  • what is the acute respiratory response to breathing rate during maximal exercise?

    breathing rate __________ to support the increase in _________ __________ as the _______ ________ plateaus due to physical limitations in size of the lungs

    increase

    pulmonary ventilation

    tidal volume

  • what is the acute respiratory response to ventilation during submaximal exercise?

    ventilation _____________ as it is the result of __________ _________ multiplied by _________ _________ and both increase to facilitate the __________ tissue sites

    increases

    tidal volume

    breathing rate

    metabolic

  • what is the acute respiratory response to ventilation during maximal exercise?

    ventilation _____________ as it is the result of __________ _________ multiplied by _________ _________ and both increase to facilitate the __________ tissue sites

    increases

    tidal volume

    breathing rate

    metabolic

  • what is the acute respiratory response to pulmonary diffusion during submaximal exercise?

    pulmonary diffusion increases as __________ increases during exercise causing a _________ gradient of ____ for enhanced __________ across the __________ ___________

    ventilation

    steeper

    PO2

    diffusion

    respiratory membrane

  • what is the acute respiratory response to pulmonary diffusion during maximal exercise?

    pulmonary diffusion increases as __________ increases during exercise causing a _________ gradient of ____ for enhanced __________ across the __________ ___________

    ventilation

    steeper

    PO2

    diffusion

    respiratory membrane

  • what is the acute respiratory response to A-VO2 difference during submaximal exercise?

    the A-VO2 difference __________ as more oxygen is unloaded from _______________ decreasing the amount of oxygen in ______ _____

    increases

    oxyhemoglobin

    venous blood

  • what is the acute respiratory response to A-VO2 difference during maximal exercise?

    the A-VO2 difference __________ as more oxygen is unloaded from _______________ decreasing the amount of oxygen in ______ _____

    increases

    oxyhemoglobin

    venous blood

  • what is the acute respiratory response to capillary diffusion during submaximal exercise?

    capillary diffusion _____________ as the demand for __________ increases at ___________ tissue sites

    increases

    oxygen

    metabolic

  • what is the acute respiratory response to capillary diffusion during maximal exercise?

    capillary diffusion _____________ as the demand for __________ increases at ___________ tissue sites

    increases

    oxygen

    metabolic