No change
All hemoglobin has something called the Bohr effect, which is a negative effect of binding oxygen by hemoglobin in the presence of acid. This effect is some what exaggerated in diving mammals.
Yes. This an example of the Bohr effect. If pH is lower than normal (normal is 7.4), then hemoglobin does not bind oxygen as well. The higher the pH, the lower the H ion concentration, the lower the carbon dioxide level, and the GREATER affinity hemoglobin has for oxygen. The binding of oxygen to hemoglobin in the lungs is not affected by changing the pH.
Coumadin can effect the Hemoglobin levels and make you more likely to develop Anemia disorders. The possibilities of developing an extreme case of Anemia is very high though.
It decreases the amount of Red blood cells that can transport O2 because smoking decrease the hemoglobin activity.
Haldane effect
This is called the Bohr effect where a increase in pC02 which decrease the pH leads to a decreased affinity of hemoglobin to oxygen. This means that hemoglobin unloads oxygen in areas where pC02 is high e.g. active tissue and that the binding coefficient of hemoglobin is highest in the lung where pC02 is negligible.
The urine concentration increased.
Bohr effect. Incorrect. It is not the Bohr effect...it is actually the "Haldane effect"=The lower the PO2 and the lower the extent of hemoglobin saturation with oxygen (O2), the more CO2 can be carried in the blood. This phenomenon is called the Haldane effect. As per the Human Anatomy and Physiology eighth edition text book published 2010.
No it does not.
increasing the concentration increases the rate of the reaction
increasing the concentration increases the rate of the reaction
increasing the concentration increases the rate of the reaction