Buffers.
TURE
Buffers are weak acids or bases that can react with strong acids or bases to prevent sharp, sudden changes in pH....
Buffers help prevent sudden changes in pH by absorbing excess H+ ions or OH- ions in a solution, maintaining a relatively stable pH. Buffers typically consist of a weak acid and its conjugate base, or a weak base and its conjugate acid, which can neutralize added acids or bases to minimize pH fluctuations.
Yes if u add 2 acids or bases or and acid and base together if both contain acids or bases it creates a poisounos gas that can kill or knock you out and will make pH higher. Dont try it though buy pH paper and use on ammonia ammonia is about a 11-12 on pH scale its very powerful. that was extra but yes it can cause sudden change matter what acids or bases you combine it with.
A chemical compound that converts strong acids or bases into weak acids or bases is called a buffer. Buffers help to stabilize the pH of a solution by absorbing excess hydrogen or hydroxide ions, thereby minimizing changes in pH when strong acids or bases are added.
acids are of types.....concentrated acids are strong.
No, most organic acids, including string acids, are weak electrolytes. This means they only partially dissociate into ions in water, resulting in a lower conductivity compared to strong electrolytes like strong acids or salts.
Weak acids have a larger value of pKa than strong acids
strong acid
"Strong acids are weak electrolytes" is not true about strong acids. Strong acids completely dissociate in water to form ions, resulting in strong electrical conductivity.
False. Universal indicator paper changes color based on the pH of a substance. Strong acids turn universal indicator paper red, orange, or yellow depending on the strength of the acid. Purple is not a color associated with strong acids on universal indicator paper.
Yes, strong acids will turn universal indicator paper red due to the high concentration of hydrogen ions present in the solution. Universal indicator paper changes color in response to the pH of the solution it is exposed to.