12 moles of each A and B are allowed to react as given : `3A + 2B rArr C + (1)/(2)D`. If 60g of D is produced then calculate the atomic mass of D.

1.1 mole of A and 2.2 moles of B reach an cquilibrium in I lit container according to the reaction. A + 2B hArr 2C + D. If at equilibrium 0.1 mole of D is present, the equilibrium constant is:

9 moles of "D" and 14 moles of E are allowed to react in a closed vessel according to given reactions. Calculate number of moles of B formed in the end of reaction, if 4 moles of G are present in reaction vessel. (percentage yield of reaction is mentioned in the reaction) Step -1 3D+4E 80%rarr5C+A Step-2 3C+5G 50%rarr 6B+F

9 moles of "D" and 14 moles of E are allowed to react in a closed vessel according to given reactions. Calculate number of moles of B formed in the end of reaction, if 4 moles of G are present in reaction vessel. (percentage yield of reaction is mentioned in the reaction) Step -1 3D+4E 80%rarr5C+A Step-2 3C+5G 50%rarr 6B+F

A to 2B + C 3B to 2D Find moles of D produced if initially 3 moles of A are taken.

3 moles of A and 4 moles of B are mixed together and allowed to come into equilibrium according to the following reaction. 3A(g) + 4B(g) rarr 2C(g) + 3D(g) When equilibrium is reached, there is 1 mole of C. The equilibrium constant of the reaction is

Two moles of each reactant A and B are taken in a reaction flask. They react in the following manner, A(g)+B(g)hArr C(g)+D(g) At equilibrium, it was found that the concentration of C is triple to that of B the equilibrium constant for the reaction is

The K_c for given reaction will be A_2 (g) +2B (g) hArr C(g) +2D(s)

For the reaction A(s)+2B(g)rarr3C(g)+D(g) Molar mass [g mol^(-1)] A = 100, B = 50, C = 60, D = 20 (a) How many grams of C are produced by reaction of 250g A ? [Hint : Mass relation] (b) What mass of B reacts to give 500g D (c) How many grams of A will produce 11.2L of C at STP ? .

In the reaction A + B hArr C + D, 4 moles of A react with 4 moles of B and form 2 moles each of C and D. The value of Ke for the reaction is

If vec a , vec b are the position vectors of A , B respectively, find the position vector of a point C in A B produced such that A C=3A B and that a point D in B A produced such that B D=2B A .