Capillarization Increases during static exercise but not during dynamic exercise. function:sense pressure changes by responding to change in tension of arterial wall Intrinsic regulation of heart rate Supply the heart with its own blood Extrinsic regulation of heart rate Tidal volume + inspiratory reserve volume + expiratory reserve volume Vital capacity HR x SV Pulmonary circulation Sinoatrial node Arterio- venous difference Sensors that detect changes in CO2, O2 and pH. Blood viscosity Systolic Pressure the maximum rate at which the heart, lungs, and muscles can effectively use oxygen during exercise Expiratory reserve volume Smaller versions of veins Stimulates the heart to beat faster Pulmonary ventilation Supply the heart with its own blood Systematic circulation Atrioventricular node Gaseous exchange Inspiratory reserve volume Interoceptors The volume of blood pumped out of the left ventricle each beat Decreases heart rate Diastolic Pressure Capillarization Increases during static exercise but not during dynamic exercise. function:sense pressure changes by responding to change in tension of arterial wall Intrinsic regulation of heart rate Supply the heart with its own blood Extrinsic regulation of heart rate Tidal volume + inspiratory reserve volume + expiratory reserve volume Vital capacity HR x SV Pulmonary circulation Sinoatrial node Arterio- venous difference Sensors that detect changes in CO2, O2 and pH. Blood viscosity Systolic Pressure the maximum rate at which the heart, lungs, and muscles can effectively use oxygen during exercise Expiratory reserve volume Smaller versions of veins Stimulates the heart to beat faster Pulmonary ventilation Supply the heart with its own blood Systematic circulation Atrioventricular node Gaseous exchange Inspiratory reserve volume Interoceptors The volume of blood pumped out of the left ventricle each beat Decreases heart rate Diastolic Pressure
(Print)
Capillarization
Increases during static exercise but not during dynamic exercise.
function:sense pressure changes by responding to change in tension of arterial wall
Intrinsic regulation of heart rate
Supply the heart with its own blood
Extrinsic regulation of heart rate
Tidal volume
+
inspiratory reserve volume
+
expiratory reserve volume
Vital capacity
HR x SV
Pulmonary circulation
Sinoatrial node
Arterio-venous difference
Sensors that detect changes in CO2, O2 and pH.
Blood viscosity
Systolic Pressure
the maximum rate at which the heart, lungs, and muscles can effectively use oxygen during exercise
Expiratory reserve volume
Smaller versions of veins
Stimulates the heart to beat faster
Pulmonary ventilation
Supply the heart with its own blood
Systematic circulation
Atrioventricular node
Gaseous exchange
Inspiratory reserve volume
Interoceptors
The volume of blood pumped out of the left ventricle each beat
Decreases heart rate
Diastolic Pressure
