PO2 IS THE OYGEN BLOOD LEVEL IN YOUR BODY
(More specifically, pO2 is the partial pressure of oxygen in different parts of your body. For example, the partial pressure of oxygen (pO2) is higher in your lungs than it is in various tissues like muscles. Therefore, oxygen is absorbed in the lungs and dispersed through your muscles.)
A gas
Assuming the Ka= [H+][PO2-]/[PO3-] and that PO3=PO2- then we can safely assume Ka= [H+][PO2-]/[PO2-] and so Ka= [H+][PO2-]/[PO2-] Ka=[H+] since the Ka of Phosphoric acid is equal to 7.5x10-3 then we can take -log(7.5x10-3) to find the pH=2.12
aorta
there is not a difference
Cu3(PO2)2
The cations of polonium are Po2+ and Po4+.
Rather than a blood vessel with a value of 104mm Hg for Po2, it is alveolar gas thatt has a Po2 of 104 mm Hg
Assuming the Ka= [H+][PO2-]/[PO3-] and that PO3=PO2- then we can safely assume Ka= [H+][PO2-]/[PO2-] and so Ka= [H+][PO2-]/[PO2-] Ka=[H+] since the Ka of Phosphoric acid is equal to 7.5x10-3 then we can take -log(7.5x10-3) to find the pH=2.12
because it wants toExplain the way anatomical shunt through the bronchial circulation causes an PO2 difference between alveolar gas and arterial blood.? In: Circulatory System [Edit categories]
If 2.2 liters of gas is inhaled at 18 degrees Celsius and is heated to 38 degrees Celsius in the lungs, what is the new volume of the gas
PO2 in blood is the amount of gases in your blood. In medical terms, this is commonly called the Alveolar-arterial.
PO2(OH)2 is the same as H2PO4^- (note the negative charge). It would be dihydrogen phosphate.
To find the dissolved oxygen content in blood, you can use the oxygen content equation: Dissolved O2 = (0.0031 x PO2) + (1.36 x Hb). First, convert the plasma PO2 to mmHg if needed and ensure all values are in the correct units. Then, plug the values into the equation to calculate the dissolved oxygen content.
Pulmonary artery/Systemic veins PCO2 = 45 PO2 = 40 Pulmonary vein/Systemic arteries PCO2 = 40 PO2 = 100
80-100
aorta
there is not a difference
Because they are less sensitive to small decreases in arterial Po2 level.