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Two substance A(2)(g) and B(2)(g) are a...

Two substance `A_(2)(g) ` and `B_(2)(g)` are allowed to react to form either of `A_(2)B_(2)(l) , A_(2)B_(4)(g)` or both depending on relative amount.
Answer the following the following question, if 75 g `A_(2)` and `200g B_(2)` are mixed and no reactant is left.
[Given :At mass of A =25 , B=50]
Now `A_(2)B_(4)` is transferred to another container completey . At high temperature it is completely dissociated in its gaseous elements `A_(2)` and `B_(2)` . Find average molecular weight of gaseous mixture:

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Two substance A_(2)(g) and B_(2)(g) are allowed to react to form either of A_(2)B_(2)(l), A_(2)B_(4)(g) or both depending on relative amount. Answer the following the following question, if 75 g A_(2) and 200g B_(2) are mixed and no reactant is left. [Given :At mass of A =25 , B=50] What is the volume of all the gases present in the mixture after completion of reaction at 760 mm of Hg and 273^(@) C?

When A_(2) and B_(2) are allowed to react, the equilibrium constant of the reaction at 27^(@)C is found (K_(C)=4).A_(2)(g)+B_(2)(g)hArr 2AB(g) What will be the equilibrium concentration of AB?

When A_(2) and B_(2) are allowed to react, the equilibrium constant of the reaction at 27^(@)C is found (K_(c)=4) . A_(2(g))+B_(2(g))hArr2AB_((g)) what will be the equilibrium concentration of AB?

Substance A_(2)B(g) can undergoes decomposition to form two set of products : If the molar ratio of A_(2)(g) to A(g) is 5 : 3 in a set of product gases, then the energy involved in the decomposition of 1 mole of A_(2)B(g) is :

Substance A_(2)B(g) can undergoes decomposition to form two set of products : If the molar ratio of A_(2)(g) to A(g) is 5 : 3 in a set of product gases, then the energy involved in the decomposition of 1 mole of A_(2)B(g) is :

Substance A_(2)B(g) can undergoes decomposition to form two set of products : If the molar ratio of A_(2)(g) to A(g) is 5 : 3 in a set of product gases, then the energy involved in the decomposition of 1 mole of A_(2)B(g) is :

Substance A_(2)B(g) can undergoes decomposition to form two set of products : If the molar ratio of A_(2)(g) to A(g) is 5 : 3 in a set of product gases, then the energy involved in the decomposition of 1 mole of A_(2)B(g) is :

Substance A_(2)B(g) can undergoes decomposition to form two set of products : If the molar ratio of A_(2)(g) to A(g) is 5 : 3 in a set of product gases, then the energy involved in the decomposition of 1 mole of A_(2)B(g) is :

At constant temperature 80% AB dissociates into A_(2) and B_(2) then the equilibrium constant for 2AB_((g)) harr A_(2(g)) +B_(2(g))