Proteins (-) attract hydrogen (+).
Bicarbonate ions
kidneys and lungs
blood participates in the regulation of fluid and electrolyte balance, acid bas (ph) balance, and boyd temperature.
generating ATP, which is the primary energy currency of cells. Phosphorus is also involved in the buffering system that helps regulate the pH level in cells and maintain their acid-base balance. Additionally, phosphorus is a component of DNA, RNA, and many other molecules involved in cell function and signaling.
Urinary System
Important in the production and maintenance of teeth and bone. Used to help regulate the acid/base balance in the body.
To balance the body's pH levels you need to have the proper balance of acid-forming and alkaline-forming foods. All meats are acid-forming. You can balance them out with alkaline proteins such as yogurt, cheese, and some protein-rich vegetables.
amino acid molecules are water soluble meaning they cannot enter the cell. Fatty acid molecules CAN enter the cell.
the molecules are donated to water molecules. if a little of the acid remains after it is added to water, then it is a strong acid. if a lot remains, then it is a weak acid. same goes for bases.
amino acid molecules are water soluble meaning they cannot enter the cell. Fatty acid molecules CAN enter the cell.
The number of nitric acid molecules is 28,6723.10e23.
A chief function of carbonic acid in the body is to regulate blood pH. It acts as a buffer system, helping to maintain the acid-base balance. Carbonic acid can dissociate into bicarbonate ions, which act as a pH buffer by accepting or donating hydrogen ions as needed to maintain the pH within a narrow range.
the molecules are donated to water molecules. if a little of the acid remains after it is added to water, then it is a strong acid. if a lot remains, then it is a weak acid. same goes for bases.