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[" Two solids "X" and "Y" dissociate int...

[" Two solids "X" and "Y" dissociate into gaseous products at a certain "],[" temperature as follows: "],[qquad X(s)rightleftharpoons A(g)+C(g)," and "Y(s)Longrightarrow B(g)+C(g)],[" Ata given temperature,the pressure over excess solid "X" is "40mm],[" and total pressure over solid "Y" is "80mm" .Calculate "],[" and total pressure of "K_(p)" for two reactions."],[" b.The ratio of moles of "A" and "B" in the vapour state over a "],[" mixture of "X" and "Y.],[" c.The total pressure of gases over a mixture of "X" and "Y.]

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Two solid X and Y dissociate into gaseous products at a certain temperature as followas: X(s)hArrA(g)+C(g) , and Y(s)hArrB(g)+C(g) At a given temperature, the pressure over excess solid X is 40 mm and total pressure over solid Y is 80 mm . Calculate a. The value of K_(p) for two reactions. b. The ratio of moles of A and B in the vapour state over a mixture of X and Y . c. The total pressure of gases over a mixture of X and Y .

Two solid X and Y dissociate into gaseous products at a certain temperature as followas: X(s)hArrA(g)+C(g) , and Y(s)hArrB(g)+C(g) At a given temperature, the pressure over excess solid X is 40 mm and total pressure over solid Y is 80 mm . Calculate a. The value of K_(p) for two reactions. b. The ratio of moles of A and B in the vapour state over a mixture of X and Y . c. The total pressure of gases over a mixture of X and Y .

Two solids X and Y dissociate into gaseous products at a certain temperature as follows: i. X(s) hArr A(g)+C(g) and ii. Y(s) hArr B(g)+C(g) At a given temperature, pressure over excess solid 'X' is 40 mm of Hg and total pressure over solid 'Y(s)' is 60 mm of Hg. Now, answer the following questions: Ratio of K_(p) for reaction (i) to that of reaction (ii), is:

Two solids X and Y dissociate into gaseous products at a certain temperature as follows: i. X(s) hArr A(g)+C(g) and ii. Y(s) hArr B(g)+C(g) At a given temperature, pressure over excess solid 'X' is 40 mm of Hg and total pressure over solid 'Y(s)' is 60 mm of Hg. Now, answer the following questions: The ratio of moles of A and B in the vapour state over a mixture of solids X and Y, is:

Two solid compounds A and B dissociate into gaseous products at 20^(@)C as a. A(s) hArr A'(s)+H_(2)S(g) b. B(s) hArr B'(g)+H_(2)S(g) At 20^(@)C pressure over excess solid A is 50 mm and that over excess solid B is 68 mm. Find: a. The dissociation constant of A and B b. Relative number of moles of A' and B' in the vapour phase over a mixture of the solids A and B. c. Show that the total pressure of gas over the solid mixture would be 84.4 mm.

Two solid compounds A and B dissociate into gaseous products at 20^(@)C as a. A(s) hArr A'(s)+H_(2)S(g) b. B(s) hArr B'(g)+H_(2)S(g) At 20^(@)C pressure over excess solid A is 50 mm and that over excess solid B is 68 mm. Find: a. The dissociation constant of A and B b. Relative number of moles of A' and B' in the vapour phase over a mixture of the solids A and B. c. Show that the total pressure of gas over the solid mixture would be 84.4 mm.

Two solid compounds X and Y dissociates at a certain temperature as follows X(s) hArr A(g)+2B(g),K_(p1)=9xx10^(-3)atm^(3) Y(s) hArr 2B(g)+C(g),K_(p2)=4.5xx10^(-3)atm^(3) The total pressure of gases over a mixture of X and Y is :

Two solid compounds X and Y dissociates at a certain temperature as follows X(s) hArr A(g)+2B(g),K_(p1)=9xx10^(-3)atm^(3) Y(s) hArr 2B(g)+C(g),K_(p2)=4.5xx10^(-3)atm^(3) The total pressure of gases over a mixture of X and Y is :