200 ml of an aqueous solution contains 0...

200 ml of an aqueous solution contains `0.1 M NaOH` and `0.2M NH_(4)OH(aq)`. In a titration experiment, `0.1 MHCI (aq)` solution is slowly added to it. Given `K_(b) (NH_(4)OH) = 10^(-5)`
On adding `200 mL` of `HCI(aq)` solution, final pH of solution will be:

Similar Questions

Explore conceptually related problems

200 ml of an aqueous solution contains 0.1 M NaOH and 0.2M NH_(4)OH(aq) . In a titration experiment, 0.1 MHCI (aq) solution is slowly added to it. Given K_(b) (NH_(4)OH) = 10^(-5) On adding 400 mL of HCI solution (from start) pH of solution will be finally:

An aqueous solution at room temperature contains 0.1 M NH_(4)Cl and 0.01M NH_(4)OH (pK_(b)=5), the pH of the solution is :

pH of an aqueous solution of 0.6M NH_(3) and 0.4M NH_(4)Cl is 9.4 (pK_(b) = 4.74) . The new pH when 0.1M Ca(OH)_(2) solution is added to it.

pH of an aqueous solution of 0.6M NH_(3) and 0.4M NH_(4)CI is 9.4 (pK_(b) = 4.74) . The new pH when 0.1M Ca(OH)_(2) solution is added to it.

A solution contains 60 mL of 0.1 M NH_(4)OH and 30 mL of 0.1 MHCl . The P^(H) of the resulting mixture is (Given K_(b) of NH_(4)OH = 1.8 xx 10^(-5) , 1.8 = 0.2553 )

K_(b) for NH_(4)OH is 1.81xx10^(-5) . The pH of 0.01 M NH_(4)Cl solution at 25^(@)C is :

Find the [OH^-] in 100 mL of 0.015 M HCl (aq.) solution.

A buffer solution contains 0.25M NH_(4)OH and 0.3 NH_(4)C1 . a. Calculate the pH of the solution. K_(b) =2xx10^(-5) .

200 ml of an aqueous solution contains `0.1 M NaOH` and `0.2M NH_(4)OH(aq)`. In a titration experiment, `0.1 MHCI (aq)` solution is slowly added to it. Given `K_(b) (NH_(4)OH) = 10^(-5)` On adding `200 mL` of `HCI(aq)` solution, final pH of solution will be:

Similar Questions

Recommended Questions

200 ml of an aqueous solution contains `0.1 M NaOH` and `0.2M NH_(4)OH(aq)`. In a titration experiment, `0.1 MHCI (aq)` solution is slowly added to it. Given `K_(b) (NH_(4)OH) = 10^(-5)`
On adding `200 mL` of `HCI(aq)` solution, final pH of solution will be: