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.

One mole of A and 2 moles of B are allowed to react in a 0.5 lit flask. What is the value of K if at equilibirum, 0.4 moles of C is formed in the reaction A+2B Leftrightarrow C+2D

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

For the reaction A(g)+2B(s)toC(l)+D(g)," "Delta H=-40 kJ//"mole" 10 mole of each A and B are mixed in a closed rigid container and allowed to react at 300 K. Calculate the heat transfer (in kJ) occurs in the process. [Use : R=8.3 "J"//"K-mole" ]

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