Apex: Sodium Hydroxide
Confirmed it thanks to the other guy.
Some examples are....
-soaps
-bleach
-detergent
-baking soda
-toothpaste
-medicines
-cooking aids
In chemistry, compounds containing the function -OH; examples: sodium hydroxide, potassium hydroxide, lithium hydroxide, magnesium hydroxide, etc.
Some strong bases are: sodium hydroxide, potassium hydroxide, lithium hydroxide, etc. NaOH
Sodium hydroxide
sodium hydroxide
It is
sodium hydroxide
NaOH (sodium hydoxide) - Apex
A monoprotic base is a molecule that has one functional group that can accept a proton. NaOH for example is a (strong) monoprotic base because it can accept one proton. But amines can also be monoprotic bases.
The resist pH change in the following way: If you add a strong acid to the buffer solution, the conjugate base gets protonated, but the pH is not significantly changed. If you add a strong base to the buffer, the conjugate acid gets deprotonated, and again the pH is not changed very much. If you only had one component (let's say just the conjugate base), then it would not be able to resist change in pH if you added a strong base to the solution (although it would still counteract the affect of added acid).
Salt
In water there is only one strong base: hydroxide (OH-).But only the dissolvable hydoxides (of alkali metals: NaOH, KOH etc.) are strong electrolytes.
Yes, group one and group 2 oxides (not including Mg or Be) are considered strong bases. Source: Masters degree
A monoprotic base is a molecule that has one functional group that can accept a proton. NaOH for example is a (strong) monoprotic base because it can accept one proton. But amines can also be monoprotic bases.
Usually because alloys are stronger or otherwise have better properties in one way or another.
Salts formed from strong acid and strong base are neither acidic nor basic. Salts formed from strong acid and weak base are slightly acidic. Salts formed from weak acid and strong base are slightly basic.
normally it is any group 2 metal with an hydroxide. ammonia is one also.divide the equilibrium constant by the molarity of the base. if it is undefined (0) then it is a strong base
Lexan is one example of strong transparent plastic.
No it is an weak one that is formed by fish
The answer is criticism.
The resist pH change in the following way: If you add a strong acid to the buffer solution, the conjugate base gets protonated, but the pH is not significantly changed. If you add a strong base to the buffer, the conjugate acid gets deprotonated, and again the pH is not changed very much. If you only had one component (let's say just the conjugate base), then it would not be able to resist change in pH if you added a strong base to the solution (although it would still counteract the affect of added acid).
Salt
When a strong acid and a strong base mix, all acidic protons will react with every basic molecule until one or the other runs out. The curve for a titration of a strong acid with a strong base will change slowly at first, and dramatically when the equivalence point (where the number of moles of acid is equal to the number of moles of base) is reached. The reaction, like all acid-base reactions, is fast.
A "strong" acid (or base) is one that dissociates completely in dilute aqueous solution. One which does not is a "weak" acid (or base). An acid with a pKa (or a base with a pKb) lower than about -2 is considered to be a "strong" acid.Weak acids and bases can still be quite corrosive. HF is a "weak" acid with a pKa of around 3.2 (which corresponds to only about one molecule out of every 38 or so being dissociated), but it's pretty terrible stuff and will dissolve even glass.
A hemisphere is one example.