Approximate p.H,0.1M aqueous `H_(2)S` solution when `K_(1)` and `K_(2)` for `H_(2)S` at `25^(@)C` are `1xx10^(-7)` and `1.3xx10^(-13)` respectively:-

A solution contains 0.1MH_(2)S and 0.3MHCl .Calculate the conc.of S^(2-) and HS^(-) ions is solutions.Given K_(a_(1)) and K_(a_(2)) are 10^(-7) and 1.3xx10^(-13) respectively.

Determine the number of mole of AgI which may be dissolved in 1.0 litre of 1M CN^(-) solution. K_(SP) for AgI and K_(C) for Ag(CN)_(2)^(-) are 1.2xx10^(-17)M^(2) and 7.1xx10^(19)M^(-2) respectively.

Determine the concentration of NH_(3) solution whose one litre can dissolve 0.10 mole AgCl. K_(sp) of AgCl and K_(f) of Ag(NH_(3))_(2)^(+) are 1.0xx10^(-10)M^(2) and 1.6xx10^(7)M^(-2) respectively.

K_(1) and K_(2)\ of H_(2) S are 10^(-3) and 10^(-12) respectively what is [S^(-2)] in 0.1 M H_(2) S buffered at p(H) =2

For a 0.072 M NaSO_(4) solution,select the correct option(s): (K_(a_(1)) and K_(a_(2)) of H_(2)SO_(4)=oo & 1.2xx10^(-2))

Citric acid (H_(3)A) is a polyprotic acid with K_(1),K_(2) , and K_(3) equals to 7.4 xx 10^(-4), 1.7 xx 10^(-5) , and 4.0 xx 10^(-7) , respectively. Calculate the [H^(o+)], [H_(2)A^(Theta)], [HA^(2-)] , and [A^(3-)] in 0.01M citric acid.

What is the pH of 0.01M H_(2)S solution ? Also determine [HS^(-)] & [S^(2-)] Given: For H_(2)S ,K_(a_(1))=9xx10^(-8),K_(a_(2))=1.2xx10^(-13)

Calculate [H^(o+)], [C_(3)H_(5)O_(3)^(Θ)] , and [PhO^(Θ)] in a solution that is 0.03M (C_(2)H_(5)overset(O)overset(||)(C)-O-O-H) and 0.1MPhOH? K_(a) values for C_(3)H_(5)O_(3)H and PhOH are 1.48 xx 10^(-4) and 1.05 xx 10^(-10) respectively.

In a solution containing 0.01M HCl and 0.1M H_(2)CO_(3) ratio of [H^(+)] produced from strong acid & weak acid respectively is :- Report your answer as x//500 .Given : K_(a_(1))&K_(a_(2)) of H_(2)CO_(3) are 4xx10^(-7)&(4xx10^(-11)) respectively.

Calculate the equilibrium constant (K) for the formation of NH^ in the following reaction: N_2(g) + 3H_2(g) At equilibrium, the concentration of NH_3 , H_2 and N_2 are 1.2 xx 10^(-2) ,3.0 xx 10^(-2) and 1.5 xx 10^(-2) M respectively.