`CH_(3)NH_(2)` (0.12 mole, `pK_(b)`=3.3) is added to 0.08 moles of HCl and the solution is diluted to on litre, resulting pH of solution is :
(a)`10.7`
(b)`3.6`
(c)`10.4`
(d)`11.3`

CH_(3)NH_(2)(0.1"mole",K_(b)=5xx10^(-4)) is added to 0.08 moles of HCI and the solution is diluted to one litre. The resulting hydrogen ion concentration is

0.1 mole of CH_(3)CH (K_(b) = 5 xx 10^(-4)) is mixed with 0.08 mole of HCl and diluted to one litre. What will be the H^(+) concentration in the solution

If 20 mL of 0.1 M NaOH is added to 30 mL of 0.2 M CH_(3)COOH (pK_(a)=4.74) , the pH of the resulting solution is :

In a basic buffer, 0.0025 mole of 'NH_4 Cl' and 0.15 mole of NH_4OH are present. The pH of the solution will be (pK_a)=4.74

0.5 moles of HCI and 0.5 moles of CH_(3)COONa are disolved in water and the solution is made upto 500 ml. The H ^+ of the resulting solution will be: (K_(a) (CH_(3)COOH) = 1.6 xx 10^(-5))

40mL sample of 0.1M solution of nitric acid is added to 20mL of 0.3M aqueous ammonia. What is the pH of the resulting solution? (pK_b = 4.7447)

10^(-3) mole of NaOH was added to 10 litres of water. The pH will change by

When NH_(3)(0.1 M) 50 ml mix with HCl (0.1 M) 10 ml then what is pH of resultant solution ( pK_(b)=4.75)

When 0.1 mole of NH_(3) is dissolved in water to make 1.0 L of solution, the [OH^(-)] of solution is 1.30xx10^(-3)M. Calculate K_(b) for NH_(3).

When 0.1 mole of NH_(3) is dissolved in water to make 1.0 L of solution , the [OH^(-)] of solution is 1.34 xx 10^(-3) M. Calculate K_(b) for NH_(3) .