For a reaction : H(2) (g) + I(2) (g) h...

For a reaction :
`H_(2) (g) + I_(2) (g) hArr 2HI (g)`
at 721 K, the value of the equilibrium constant is 50. If 0.5 mole each of `H_(2) " and "I_(2)` are added to the system the value of the equilibrium constant will be :

`0.02`

`0.2`

`50`

`25`

Text Solution

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The correct Answer is:

The value of the equilibrium constant will remain constant as long as temperture is constant.

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For a reaction, H_2+I_2hArr 2HI at 721 K , the value of equilibrium constant is 50. If 0.5 moles each of H_2 and I_2 is added to the system the value of equilibrium constant will be :

`0.02`

`0.2`

For a reaction H_(2(g))+I_(2(g))rArr2HI_((g))at 721^(@)C the value of equilibrium constant is 50 . If 0.5 moles each of H_(2) & I(2) is added to the system the value of equilibrium constant will be .

100

200

For a reaction H_(2)+I_(2)harr2HI at 721, K e value of euilrum contan is 50. If 0.5 mles each of H_(2) and I_(2) is added to the system the value of equilibium constant will be

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For a reaction : `H_(2) (g) + I_(2) (g) hArr 2HI (g)` at 721 K, the value of the equilibrium constant is 50. If 0.5 mole each of `H_(2) " and "I_(2)` are added to the system the value of the equilibrium constant will be :

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For a reaction, H_2+I_2hArr 2HI at 721 K , the value of equilibrium constant is 50. If 0.5 moles each of H_2 and I_2 is added to the system the value of equilibrium constant will be :

For a reaction H_(2(g))+I_(2(g))rArr2HI_((g))at 721^(@)C the value of equilibrium constant is 50 . If 0.5 moles each of H_(2) & I(2) is added to the system the value of equilibrium constant will be .

For a reaction H_(2)+I_(2)harr2HI at 721, K e value of euilrum contan is 50. If 0.5 mles each of H_(2) and I_(2) is added to the system the value of equilibium constant will be

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DINESH PUBLICATION-EQUILIBRIUM-Multiple Choice Qestions Bank

For a reaction :
`H_(2) (g) + I_(2) (g) hArr 2HI (g)`
at 721 K, the value of the equilibrium constant is 50. If 0.5 mole each of `H_(2) " and "I_(2)` are added to the system the value of the equilibrium constant will be :