pH is regulated generally in the stomach, when food is broken down. Acids are introduced to dissolve food and i think then bile is introduced to neutralize the acid, so you don't get eaten from the inside out. Which would be unfortunate.
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Hydrogen concentration in body fluids is primarily regulated through the respiratory system, which controls CO2 levels and maintains pH balance. The kidneys also play a role by excreting excess acids or bases to help regulate hydrogen ion concentration. Additionally, the buffer systems in the blood help to maintain stable pH levels by absorbing or releasing hydrogen ions as needed.
which is not a method for regulating hydrogen concentration in the blood and the answer is DIET.
chemical buffer systems, respiratory changes and renal mechanism all are methods for regulating hydrogen ion concentration in the blood
1. Bicarbonate buffer system
2. Phosphate buffer system
3. Protein buffer system
Hydrogen ions (H+) determine acidity in body fluids. The concentration of hydrogen ions influences the pH of the fluid, with higher concentrations leading to a more acidic environment. pH is a measure of the balance between hydrogen ions and hydroxide ions in a solution.
pH (potential of hydrogen) is the term used to denote hydrogen ion concentration in body fluids. pH values range from 0 (most acidic) to 14 (most alkaline), with a value of 7 considered neutral.
Fluids that need to be regulated in the body include blood plasma, extracellular fluid, and intracellular fluid. Maintaining a balance of these fluids is crucial for proper functioning of cells, tissues, and organs. Disruptions in fluid balance can lead to health issues such as dehydration or edema.
If a person is only consuming water, the solute concentration in the extracellular fluids would decrease. This is because water dilutes the solutes present in the extracellular fluids, leading to a lower concentration overall.
equalize concentration gradients, allowing for the movement of molecules from areas of high concentration to low concentration. This process is crucial for maintaining proper balance of nutrients and waste products in body fluids, ensuring proper cell function.