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Hint: A buffer solution is a solution which maintains the pH of a solution. Here, upon neutralisation the acid will lose its protons. The correct answer here is the number of protons in the acid i.e. the number of protons it has that is the number of buffers that will be formed here upon neutralisation.
Complete Step by Step Solution: We know that generally we can define a buffer solution as a solution which is resistant to change in pH upon addition of a small amount of base or acid. Buffer solution usually consists of a weak acid and salt of its conjugate base or of a weak base and a salt of its conjugate acid.
Here, we have phosphoric acid with sodium hydroxide. Let us write down its neutralization reaction. Here as we can see phosphoric acid has three removable protons thus for neutralisation three protons must be replaced.
We can write the reaction as-
\[{{H}_{3}}P{{O}_{4}}+NaOH\to Na{{H}_{2}}P{{O}_{4}}+{{H}_{2}}O\]
When the first proton is replaced, we get monobasic sodium phosphate.
Similarly, we can write the reaction of the neutralisation of the second proton as-
\[Na{{H}_{2}}P{{O}_{4}}+NaOH\to N{{a}_{2}}HP{{O}_{4}}+{{H}_{2}}O\]
Here, we get dibasic sodium phosphate.
And the third proton neutralisation reaction will be-
\[N{{a}_{2}}HP{{O}_{4}}+NaOH\to N{{a}_{3}}P{{O}_{4}}+{{H}_{2}}O\]
Here, we get tribasic sodium phosphate.
Here we can see that phosphoric acid is a weak acid and it is neutralised thus, the buffers we obtained are acidic buffers.
Here, we obtained three buffers upon neutralisation of each proton as we can see form the above reactions.
Therefore, the correct answer is option [A] 3.
Note: Buffer solutions are of two types- Acidic buffer and Basic buffer. Acidic buffer consists of a weak acid and its salt, along with a strong base. Basic buffer is prepared by mixing a weak base with its conjugate salt along with a strong acid.
A basic buffer can be formed from a mixture of ammonia and ammonium chloride in water.
$N{{H}_{3}}+HCl\to N{{H}_{4}}Cl$
An acidic buffer can be made from the mixture of sodium acetate and acetic acid in water.
$C{{H}_{3}}COOH-{{H}^{+}}\to C{{H}_{3}}CO{{O}^{-}}$
Complete Step by Step Solution: We know that generally we can define a buffer solution as a solution which is resistant to change in pH upon addition of a small amount of base or acid. Buffer solution usually consists of a weak acid and salt of its conjugate base or of a weak base and a salt of its conjugate acid.
Here, we have phosphoric acid with sodium hydroxide. Let us write down its neutralization reaction. Here as we can see phosphoric acid has three removable protons thus for neutralisation three protons must be replaced.
We can write the reaction as-
\[{{H}_{3}}P{{O}_{4}}+NaOH\to Na{{H}_{2}}P{{O}_{4}}+{{H}_{2}}O\]
When the first proton is replaced, we get monobasic sodium phosphate.
Similarly, we can write the reaction of the neutralisation of the second proton as-
\[Na{{H}_{2}}P{{O}_{4}}+NaOH\to N{{a}_{2}}HP{{O}_{4}}+{{H}_{2}}O\]
Here, we get dibasic sodium phosphate.
And the third proton neutralisation reaction will be-
\[N{{a}_{2}}HP{{O}_{4}}+NaOH\to N{{a}_{3}}P{{O}_{4}}+{{H}_{2}}O\]
Here, we get tribasic sodium phosphate.
Here we can see that phosphoric acid is a weak acid and it is neutralised thus, the buffers we obtained are acidic buffers.
Here, we obtained three buffers upon neutralisation of each proton as we can see form the above reactions.
Therefore, the correct answer is option [A] 3.
Note: Buffer solutions are of two types- Acidic buffer and Basic buffer. Acidic buffer consists of a weak acid and its salt, along with a strong base. Basic buffer is prepared by mixing a weak base with its conjugate salt along with a strong acid.
A basic buffer can be formed from a mixture of ammonia and ammonium chloride in water.
$N{{H}_{3}}+HCl\to N{{H}_{4}}Cl$
An acidic buffer can be made from the mixture of sodium acetate and acetic acid in water.
$C{{H}_{3}}COOH-{{H}^{+}}\to C{{H}_{3}}CO{{O}^{-}}$
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