14 g of `O_2` and 4 g of `C_3H_8` are allowed to react to the maximum possible extent to form only CO and `H_2O`. Find the weight of CO formed.

27 g C and 48 g O_2 are allowed to react completely to form CO and CO_2 .The weight ratio of CO and CO_2 formed, is :

2g of H_(2) and 1g O_(2) are allowed to react according to following equation 2H_(2)(g)+O_(2)(g) to 2H_(2)O(g) Amount of H_(2)O formed in the reaction will be:

How much oxygen is formed from 264 g of CO_(2) and 216 g of H_(2)O ?

How much oxygen is formed from 264 g of CO_(2) and 216 g of H_(2)O ?

combustion gives CO_2(g) and H_2O(g) .Find ratio of number of atoms O to H in product formed.

K_(c ) for CO(g)+H_(2)O(g) hArr CO_(2)(g)+H_(2)(g) at 986^(@)C is 0.63 . A mixture of 1 mol H_(2)O(g) and 3 mol CO_(2)(g) is allowed to react to come to an equilibrium. The equilibrium pressure is 2.0 atm. a. Hoe many moles of H_(2) are present at equilibrium ? b. Calculate partial pressure of each gas at equilibrium.

Calculate the ethalpy of combustion of ethylene (g) to form CO_(2) (gas) and H_(2)O (gas) at 298 K and 1 atmospheric pressure. The enthalpies of formation of CO_(2),H_(2)O and C_(2)H_(4) are -393.7, -241.8+52.3 kJ per mole respectively.