Chapter 2: Pressure Distribution in a Fluid
... volume) shifts laterally to the right for the case shown because part of the original buoyant volume AOB is transferred to a new buoyant volume EOD. The point of intersection of the lines of action of the buoyant force before and after heel is called the metacenter M and the distance GM is called th ...
... volume) shifts laterally to the right for the case shown because part of the original buoyant volume AOB is transferred to a new buoyant volume EOD. The point of intersection of the lines of action of the buoyant force before and after heel is called the metacenter M and the distance GM is called th ...
Lecture 15-16
... (a) the flux due to processes of internal friction (viscous heating), v (b) the flux due to thermal conduction (molecular transfer of energy from hot to cold regions; does not involve macroscopic motion). For (b), assume that ...
... (a) the flux due to processes of internal friction (viscous heating), v (b) the flux due to thermal conduction (molecular transfer of energy from hot to cold regions; does not involve macroscopic motion). For (b), assume that ...
Physiology Objectives 43
... Oxygen capacity: oxygen can combine with 1.34 ml of hemoglobin when hemoglobin is fully saturated. Thus, the oxygen capacity for a solution with a given concentration of hemoglobin at a specific volume is equal to the total amount of hemoglobin/ml multiplied by full oxygen saturation (1.34). Oxygen ...
... Oxygen capacity: oxygen can combine with 1.34 ml of hemoglobin when hemoglobin is fully saturated. Thus, the oxygen capacity for a solution with a given concentration of hemoglobin at a specific volume is equal to the total amount of hemoglobin/ml multiplied by full oxygen saturation (1.34). Oxygen ...
Dear Notetaker:
... - The % saturation of hemoglobin is directly related to the PO2 of the blood - Hb binding with O2 is reversible o Increased PO2 increases Hb saturation (Hb associate more with O2) o Decreased PO2 decreases Hb saturation (Hb dissociates more O2) - When alveolar PO2 = Blood PO2 (no Hb) no diffusion ...
... - The % saturation of hemoglobin is directly related to the PO2 of the blood - Hb binding with O2 is reversible o Increased PO2 increases Hb saturation (Hb associate more with O2) o Decreased PO2 decreases Hb saturation (Hb dissociates more O2) - When alveolar PO2 = Blood PO2 (no Hb) no diffusion ...
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... Third, the fetal capillary is more permeable to plasma proteins. The effect of this enhanced solute permeability is that for any given solute concentration difference across the capillary endothelium, the colloid oncotic pressure difference drives fluid less effectively from the interstitium to the ...
... Third, the fetal capillary is more permeable to plasma proteins. The effect of this enhanced solute permeability is that for any given solute concentration difference across the capillary endothelium, the colloid oncotic pressure difference drives fluid less effectively from the interstitium to the ...
What*s different about children*s kidneys
... peritubular capillaies → ↑ reabsorption of tubular fluid. • ↓ medullary blood flow through the vasa recta → ↓ washout of NaCl and urea in the kidney medullary space → ↑ [NaCl] + [urea] in the medulla → ↑ absorption of tubular fluid. ...
... peritubular capillaies → ↑ reabsorption of tubular fluid. • ↓ medullary blood flow through the vasa recta → ↓ washout of NaCl and urea in the kidney medullary space → ↑ [NaCl] + [urea] in the medulla → ↑ absorption of tubular fluid. ...
