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Ag^(+) + NH(3) ltimplies [Ag(NH(3))]^(+)...

`Ag^(+) + NH_(3) ltimplies [Ag(NH_(3))]^(+), k_(1)=6.8 xx 10^(-5)`
`[Ag(NH_(3))]^(+) + NH_(3) ltimplies [Ag(NH_(3))_(2)]^(+)`,
`k_(2) = 1.6xx10^(-3)`
The formation constant of `[Ag(NH_(3))_(2)]^(+)` is :

A

`10^(-6)`

B

`2 xx 10^(-2)`

C

`2 xx 10^(-8)`

D

`2 xx 10^(4)`

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The correct Answer is:
A, B, C
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Ag^(+)+hArr|Ag(NH_(3))_(2)|^(+), k_(1) = 6.8 xx 10^(-3) [Ag(NH_(3))]^(+) + NH_(3)hArr |Ag(NH_(3))_(2)|, k_(2) = 1.6xx10^(-3) Then the formation constant or |Ag(NH_(3))_(2)|^(+) is

If Ag^(+)+NH_(3)hArr[Ag(NH_(3))]^(+) , K_(1)=3.5xx10^(-3) and [Ag(NH_(3))]^(+)+NH_(3)hArr[Ag(NH_(3))_(2)]^(+) , K_(2)=1.74xx10^(-3) . The formation constant of [Ag(NH_(3))_(2)]^(+) is :

Ag^(+)+NHP(3)hArr[Ag(NH_(3))]^(+), K_(1)=3.5=10^(-3) [Ag(NH)_(3)]^(+)+NH_(3)hArr[Ag(NH_(3))_(2)]^(+),K_(2)=1.7xx10^(-3) then the formation constant of [Ag(NH_(3))_(2)]^(+) is

Zn^(+2) + 2NH_(3) hArr [Zn(NH_(3))_(2)]^(+2), K_(1) = 2xx10^(-3) [Zn(NH_(3))_(2)]^(+2) + 2NH_(3) hArr [Zn(NH_(3))_(4)]^(2+), K_(2) = 1.5xx10^(-3) Find out the instability constant?

{:(Ag^+ +NH_3 hArr[Ag(NH_3)]^+,,K_1=3.5xx10^-3),([Ag(NH_3)]^+ +NH_3 hArr[Ag(NH_3)_2]^+,,K_2=1.8xx10^-3):} then, the overall formation constant of [Ag(NH_3)_2]^+ is :

The hybridisation of Ag in [Ag(NH_3)_2]^(+) complex is

The hybridisation of Ag in [Ag(NH_3)_2]^+ complex is -

NARAYNA-CHEMICAL EQUILIBRIUM-Exercise -II (H.W.)
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  12. For the reaction at 25^(@)C, C(2)H4(g)+H(2)(g) LeftrightarrowC(2)H(6...

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  13. In the dissociation of N(2)O(4) into NO(2), (1+ alpha) values with the...

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  14. The degree of dissociation of PCl(5) will be more at ………. pressure.

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  15. Before equilibrium is set-up for the chemical reaction, N(2)O(4)hArr 2...

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  16. For reacrtion 2NOC1(g) hArr 2NO(g) + C1(2)(g) , K(c) at 427^(@)C is 3x...

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  17. N(2)O(4) is dissociated to 33% and 50% at total pressure P(1) and P(2)...

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  19. For the reaction, PCl(3) (g)+Cl(2) (g) Leftrightarrow PCl(5) (g)" at "...

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