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The volume decrease only when the external pressure increase.
A decrease in density would indicate a reduction in mass relative to the volume. If the mass decreases but the volume remains the same or increases, then the density would decrease.
Tidal volume is the volume of gas inhaled or exhaled during a normal breath. The tidal volume of an average adult is approximately 500 to 600 mL.
The volume of gas inspired or expired during each respiratory cycle.
any increase in temperature will cause gas to occupy a larger volume, any decrease will shrink the volume to a point it becomes liquid. further decrease will cause a solid to form. at -273 degrees celsius everything is solid
yes.
The effects that exercise have on tidal volume is that they cause an increase to in tidal volume. This is due to the faster breathing in which allows the lungs to bring in more oxygen.
Inspiratory Reserve Volume is the excess volume above the tidal volume that can be inspired. During exercise, there is an increase in demand for oxygen which leads to a decrease in IRV.
An increase in temperature will cause an increase in volume, while a decrease in temperature will cause a decrease in volume.
Decrease lung and air volume in the amount of air exchange
The amount, called tidal volume, is basally about half a litre/500ml. But it, multiplies upon exertion.
The volume decrease only when the external pressure increase.
Tidal volume increased.
Tidal volume increases.
In contrast to Inspiratory Reserve volume,Tidal volume and Expiratory reserve volume, residual volume does not change with exercise
The amount of air that is inhaled or exhaled in one breath during unforced breathing is the tidal volume.
A decrease in density would indicate a reduction in mass relative to the volume. If the mass decreases but the volume remains the same or increases, then the density would decrease.