`HH_(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

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

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 :

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

0.1 mole of CH_(3)NH_(2) (K_(b)=5xx10^(-4)) is mixed with 0.08 mole of HCl and diluted to one litre. The [H^(+)] in solution is

0.1 mol of CH_(3)NH_(2)(K_(b)=5.0xx10^(-4)) is mixed with 0.08 mol of HCl and diluted to one litre. What will be the H^(+) ion concentration in the solution ?

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

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