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Unit of K(p) is (atm)^(Deltan)...

Unit of `K_(p)` is `(atm)^(Deltan)`

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The relation between K_(p) and K_(c) is K_(p)=K_(c)(RT)^(Deltan) unit of K_(p)=(atm)^(Deltan) , unit of K_(c)=(mol L^(-1))^(Deltan) Given: 2NO(g)+O_(2)(g) hArr 2NO_(2)(g), K_(1) 2NO_(2)(g) hArr N_(2)O_(4)(g), K_(2) 2NO(g)+O_(2)(g) hArr N_(2)O_(4)(g), K_(3) Which of the following relations is correct?

The relation between K_(p) and K_(c) is K_(p)=K_(c)(RT)^(Deltan) unit of K_(p)=(atm)^(Deltan) , unit of K_(c)=(mol L^(-1))^(Deltan) Consider the following reactions: i. CO(g)+H_(2)O(g) hArr CO_(2)(g)+H_(2)(g), K_(1) ii. CH_(4)(g)+H_(2)O(g) hArr CO(g)+3H_(2)(g), K_(2) iii. CH_(4)(g)+2H_(2)O(g) hArr CO_(2)(g)+4H_(2)(g), K_(3) Which of the following is correct?

The relation between K_(p) and K_(c) is K_(p)=K_(c)(RT)^(Deltan) unit of K_(p)=(atm)^(Deltan) , unit of K_(c)=(mol L^(-1))^(Deltan) H_(3)ClO_(4) is a tribasic acid, it undergoes ionisation as H_(3)ClO_(4) hArr H^(o+)+H_(2)ClO_(4)^(-), K_(1) H_(2)ClO_(4)^(-) hArr H^(o+)+HClO_(4)^(2-), K_(2) HClO_(4)^(2-) hArr H^(o+)+ClO_(4)^(3-), K_(3) Then, equilibrium constant for the following reaction will be: H_(3)ClO_(4) hArr 3H^(o+)+ClO_(4)^(3-)

The relation between K_(p) and K_(c) is K_(p)=K_(c)(RT)^(Deltan) unit of K_(p)=(atm)^(Deltan) , unit of K_(c)=(mol L^(-1))^(Deltan) The equilibrium constant of the following reactions at 400 K are given: 2H_(2)O(g) hArr 2H_(2)(g)+O_(2)(g), K_(1)=3.0xx10^(-13) 2CO_(2)(g) hArr 2CO(g)+O_(2)(g), K_(2)=2xx10^(-12) Then, the equilibrium constant K for the reaction H_(2)(g)+CO_(2)(g) hArr CO(g)+H_(2)O(g) is

Assertion (A) : For gaseous reaction when Delta n =0 , K_(p)=K_(c) . Deltan = change in the number of gas moles Reason (R ) : For gaseous reaction, K_(p)=K_(c)(RT)^(Deltan)

In the relation, K_(p)=K_(c)(RT)^(Deltan) the value of Deltan is

K_(p) and K_(c) are inter related as K_(p)=K_(c)(RT)^(Deltan) Answer the following questions: Which of the following have same units K_(p) ?

K_(p) and K_(c) are inter related as K_(p)=K_(c)(RT)^(Deltan) Answer the following questions: The unit of equilibrium constant for H_(2)(g)+I_(2)(g) hArr 2HI(g)

CENGAGE CHEMISTRY-CHEMICAL EQUILIBRIUM-Exercises (True/False)
  1. The low of mass action applicable to heterogenous equilibria.

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  2. Equilibrium can be achieved only in open vessel.

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  3. The solubility of sodium hydroxide increases with increase of temperat...

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  4. The degree of dissociation of PCl(5) decreases with increase in pressu...

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  5. High pressure and low temperature are favourable conditions for the sy...

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  6. An endothermic reaction proceeds faster in the forward reaction with d...

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  7. A catalyst increases the rate of forward reaction and decrease the rat...

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  8. The value of K does not depends upon pressure.

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  9. For any reaction, greater the value of equilibrium constant greater is...

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  10. Solid hArr liquid equilibrium can be achieved only at melting point of...

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  11. Addition of an inert gas at constant volume to the equilibrium mixture...

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  12. For a reversible system at a constant temperature, the value of K(c) i...

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  13. The equilibrium constant is 10 at 100 K. Hence, DeltaG will be negativ...

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  14. Unit of K(p) is (atm)^(Deltan)

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  15. The value of equilibrium constant is independent of the speed with whi...

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  16. In Haber's process, once the equilibrium is established, addition of n...

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  17. When the equilibrium is attained, the concentration of each of the rea...

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  18. The equilibrium state can be attained from both sides of the chemical ...

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  19. A reaction continues even after the attainment of equilibrium.

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  20. The equilibrium can be attained at a faster rate if one of the product...

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