In a basic buffer, 0.0025 mole of NH4Cl and 0.15 mole of `NH_4OH` are present. The pH of the solution will be `(pK_a)=4.74`

In a basic buffer, 0.0025 mole of NH_4OH are present. The pH of the solution will be (pK_a)=4.74

A basic buffer contains 0.8 mole of NH_(4)Cl and 0.2 mole of NH_(4)OH for litre of a solution the K_(b) of base is 1.8 xx 10^(-5) . Then the P^(H) of the buffer solution is (log 1.8 = 0.2553)

Calculate the pH of the solution in which 0.2 M NH_(4)Cl and 0.1 M NH_(3) are present. The pK_(b) of ammonia solution is 4.75 .

A buffer solution contains 1 mole of (NH_(4))_(2)SO_(4) and 1 mole of NH_(4)OH(K_(b)=10^(-5)) . The pH of solution will be:

In a buffer solution concentration of (NH_4)_2SO_4 and NH_4OH are 0.4 M and 0.8 M respectively, pH of the solution is [K_a(NH_4^+)=10^-8]

Calculate the pH of 0.5L of a 0.2 M NH_(4)Cl-0.2 M NH_(3) buffer before and after addition of (a) 0.05 mole of NaOH and (b) 0.05 mole of HCl . Assume that the volume remains constant.[Given: pK_(a) of NH_(3)=4.74]

Calculate the pH of a buffer solution containing 0.2 mole of NH_4Cl and 0.1 mole of NH_4OH per litre. K_b for NH_4OH=1.85xx10^(-5) .

Calculate the pH of a buffer by mixing 0.15 mole of NH_(4)OH and 0.25 mole of NH_(4)CI in a 1000mL solution K_(b) for NH_(4)OH = 2.0 xx 10^(-5)