Calculate pH(1),[HS^(-)],[S^(2-)],[Cl^(-...

Calculate `pH_(1),[HS^(-)],[S^(2-)],[Cl^(-)]` in a solution which is `0.1M` in `HCl& 0.1M in H_(2)S`.Given that `K_(a_(1))(H_(2)S)=10^(-7),K_(a_(2))(H_(2)S)=10^(-14)`.Also calculate degree of dissociation of `H_(2)S` &`HS^(-)` in solution.

Text Solution

Verified by Experts

`underset(0.1M)(HCl)+underset(0.1M)(H_(2)S)`
`,.pH=1` (most of `[H^(+)]`comes form `HCl`&`[Cl^(-)]=0.1M`
`{:(,H_(2)hArr,H^(+),+,HS^(-)),(t=0,C_(1),0,,0):}`
at eq.`:.C_(1)-C_(1)alpha_(1)0.1+C_(1)a_(2) C_(1)alpha_(1)`
`(~~0.1)`
`K_(a_(1))=(C_(1)alpha_(1)alpha_(2)xx0.1)/(C_(1)alpha_(2)(1-alpha_(2)))`
degree of dissociation of `H_(2)S=alpha_(1)=(10^(-7))/(10^(-1))=10^(-6)`
`{:(,HS^(-)hArr,S^(2-),+H^(+)),(at eq.,C_(1)alpha_(1)(1-alpha_(2)),C_(1)alpha_(1)alpha_(2),~~0.1):}`
`10^(-14)=(C_(1)alpha_(1)a_(2)xx0.1)/(C_(1)alpha_(1)(1-alpha_(2)))`
rArr degree of dissocation of `HS^(-)`=alpha_(2)=10^(-13)`
`[S^(2-)]=C_(1)alpha_(1)alpha_(2)=10^(-1)xx10^(-6)xx10^(-13)=10^(-20)M`
`[HS^(-)]~~C_(1)alpha_(1)=10^(-1)xx10^(-6)=10^(-7)M`.

Topper's Solved these Questions

IONIC EQUILIBRIUM
RESONANCE|Exercise Solved Example Miscellaneous solved problems|13 Videos
IONIC EQUILIBRIUM
RESONANCE|Exercise Board Level Exercise|18 Videos
HYDROCARBON
RESONANCE|Exercise ORGANIC CHEMISTRY(Hydrocarbon)|50 Videos
IUPAC NOMENCLATURE & STRUCTURAL ISOMERISM
RESONANCE|Exercise Advanced Level Problems Part-5|2 Videos

Similar Questions

Explore conceptually related problems

What is [HS^(-)] & [S^(2-)] in solution of 0.01M HCl and 0.1 M H_(2)S ?(Given that for H_(2)S,K_(a_(1))=10^(-7)and K_(a_(2))=10^(-14))

Calculate the pH of 0.02 M H_2S (aq) given that K_(a_1)=1.3xx10^(-7), K_(a_2)=7.1xx10^(-15)

Calcualate pH,[H^(+)],[OH^(-)],[CH_(3)COOH],[SH^(-)],[H_(2)S],[S^(2-)] in a solution obtained by mixing equal volume of 0.2M H_(2)S &0.02M acetic acid .Given that K_(a)(CH_(3)COOH)=2xx10^(-5),K_(a_(1))(H_(2)S)=10^(-7),K_(a_(2))(H_(2)S)=10^(-14) Take log21=-1.32,(1)/(sqrt(21))=0.218

For H_(2)S, K_(a_(1))=10^(-7), K_(a_(2))=10^(-14),CoS=4xx10^(-21), Ag_(2)S=6.3xx10^(-50) Calculate difference in PH for precipitation of MnS and CoS.

The pH of the a solution containing 0.4 M HCO_(3)^(-) is : [K_(a_(1)) (H_(2)CO_(3)) = 4 xx 10^(-7), K_(a_(2)) (HCO_(3)^(-)) = 4 xx 10^(-11)]

0.1 M H_(2)S has K_(1)=10^(-5) & K_(2)=1.5xx10^(-12) . What will be the concentration of S^(-2) in the solution.

In a solution containing 0.1M HCl & 0.1M H_(3)PO_(4) (having dissociation constants K_(a_(1)),K_(a_(2)),K_(a_(3))) assuming alphaltlt1 for H_(3)PO_(4) ,

The [H^(+)] of 0.10 MH_(2)S solution is (given K_(1)=1.0 xx 10^(-7) , K_(2)=1.0 xx 10^(-14))

Calculate the solubility of CoS in 0.1M H_(2)S and 0.15M H_(3)O^(oplus) (K_(sp) of CoS = 3 xx 10^(-26)) . (K_(1) xx K_(2) (H_(2)S) = 10^(-21))

RESONANCE-IONIC EQUILIBRIUM-partIII one or more than one options correct type

Calculate pH(1),[HS^(-)],[S^(2-)],[Cl^(-)] in a solution which is 0.1M...
Text Solution
|
A buffer solution can be prepared from a mixture of
Text Solution
|
Aniline behaves as a weak base. When 0.1M ,50mL solution sample of ani...
Text Solution
|
Which of the following mixtures will act as buffer?
Text Solution
|
Choose the correct statement(s) about buffer capacity during titration...
Text Solution
|
Let the colour of the indicator Hin (coloueless) will be visible only ...
Text Solution
|
When weak base solution (50mL of 0.1 N NH(4)OH) is titrated with stron...
Text Solution
|
A solution of a substances is titrated against a strong base ( or aci...
Text Solution
|