At `298 K` the Ksp of `M_(2)SO_(4)` is `3.2 10^(-5)`. The max. concentration of `SO_(4)^(-2)` ions that colud be attain in saturated solution of this solid at `298 K` is ?

At 298 K , the K_(sp) of M_(2) SO_(4) is 3.2 xx 10^(-5) . The maximum concentration of SO_(4)^(2-) ion that could be attained in a saturated solution of this solid at 298 K is

M_(2)SO_(4) (M^(o+) is a monovalent metal ion) has a K_(sp) of 3.2 xx 10^(-6) at 298 K . The maximum concentration of SO_(4)^(2-) ion that could be attained in a saturated solution of this solid at 298 K is

M_(2)SO_(4) (M^(o+) is a monovalent metal ion) has a K_(sp) of 3.2 xx 10^(-6) at 298 K . The maximum concentration of SO_(4)^(2-) ion that could be attained in a saturated solution of this solid at 298 K is

The K_(sp) for X_(2) SO_(4) at 25^(@) (X^(+) is a monovalent ion) is 3.2 xx 10^(-5) The maximum concentration of X^(+) that could be attained in a saturated solution of this solid at 25^@C is

The K_(sp) for X_(2) SO_(4) at 25^(@) (X^(+) is a monovalent ion) is 3.2 xx 10^(-5) The maximum concentration of X^(+) that could be attained in a saturated solution of this solid at 25^@C is

K_sp = 1.2 xx 10^-5 of M_2SO_4 ( M^+ is monovalent metal ion) at 298 K find the maximum concentration of M^+ ions that could be attaiined in a saturated solution of this solid at 298 K.

If we add SO_(4)^(2-) ion to a saturated solution of Ag_(2)SO_(4) , it will result in a//an

The exact concentration of H^(+) ion in 10^(-3) molar HCl aq solution at 298 K is

The exact concentration of H^(+) ion in 10^(-3) molar HCl aq solution at 298 K is