Buffer solutions tend to prevent dramatic changes in the pH of a solution when a weak acid and its conjugate base are added. An example of a buffer solution is blood.
You can have temperature buffers (such as cholesterol) which prevent freezing or melting of the cell membrane when the temperature changes You can have pH buffers which prevent dramatic changes in the pH which can cause denaturing of enzymes Buffers in general reduce effects to the organism in changing environmental conditions
Buffers
They prevent a solution from becoming too acidic or too basic. Buffers help keep the pH at a specific level. For example, the human body uses buffers to maintain a pH of 7.4-7.6.
buffers
buffers
Buffers are weak acids or bases that can react with strong acids or bases to prevent sharp, sudden changes in pH....
Buffers.
TURE
No, buffers are either acidic or basic, because they contain either a weak acid or a weak base.
Buffer solutions act as neutralizing agents that contain both positive and negative ions of a weak acid. Thus, if a base such as NaOH is added to the solution, the positive H+ ions will react with the negative (OH-) ions to neutralize the solution. Similarly, if an acid is added to the buffer, the negative ions (such as OH- or C2H3O2-) will react with the hydronium ions to neutralize the solution.
A buffer helps prevent radical changes in pH of a solution by providing a means for which an acid or base that may find its way into the solution to be able to react. Buffers are made up or strong or weak acids and their salts. Together in aqueous solution, their pH will remain relatively the same despite adding acid or base. However once the buffer has fully reacted in either direction, the pH will then be subject to radical shifts in value.
The cowling on the engine was damaged in the crash.