`{:(,2(s),+,3B(g),rarr,4C(g)),(t=0,10mol,,10mol,,):}`
Find final moles of `A,B` and `C` .

For the reaction 2A(g)+3B(l)rarrC(g)+4D(l),DeltaH=300"cal//mol" Calculate DeltaU (in calories) of reaction when 3 moles of A (g) react with 4 moles of B (l) at 27^(@)C. (R=2"cal//mol"-K)

{:(A^(-) (g) rarr A^(2+)(g),,DeltaH = 1100KJ//mol),(A(g)rarrA^(2+)(g),,DeltaH = 1200 KJ//mol):} Electron gain enthalpy of A is P xx 10^(2) KJ//mol . What is the value of P ?

Limiting reactant: What mass of water (H_(2) O) can be formed by the reaction of 3.00g of H_(2) (g) with 29.0g of O_(2)(g) ? Strategy: Using the balanced equation {:(2H_(2)(g),+,O_(2)(g),,rarr2H_(2)O(l)),(2mol,,1mol,,2mol),(2(2.00g),,32.0g,,2(18.0g)):} find out the numbers fo moles of each reactatn required to react with the other. Using the given masses, calculate the number of moles of each reactant. Finally, identify the limiting recatant and base the rest of the calculate on it.

Calculate Delta G (in joule) for the reaction 2A(g) to B(g)+C(g) when mixture contains 1 mole of A, 2 moles of B and 1 mole of C at total pressure of 10 atm and 300 K. [Given : G_(m)^(@),A(g)=40 "kJ mol"^(-1) , G_(m)^(@),B(g)=60 "kJ mol"^(-1) , G_(m)^(@),C(g)=20 "kJ mol"^(-1) , R=8.3 JK^(-1)mol^(-1) and "In " 2=0.7 ]

What mass of oxygen gas is required to burn completely 2.5 mol of method? underset(underset("reactant")("one"))("Moles of ")rarr underset(underset("reactant")("another"))("Mass of") Stragetgy : Use the balanced equation {:(CH_(4), + 2O_(2), rarr CO_(2), + 2H_(2) O),(1mol, 2mol,1 mol,2mol),(16.0 g,2(32.0)g,44.0g,2(18.0g)):} to find the relationship among moles and grams of reactants : underset(CH_(4))("Mole of ")rarr underset(O_(2))("Moles of")rarr underset(O_(2))("grams of")

The enthalpy change for the following process are listed below : (a) Cl_(2(g)) rarr 2Cl_((g)), DeltaH=242.3kJ mol^(-1) (b) I_(2(g))rarr 2I_((g)), DeltaH=151.0kJ mol^(-1) (c) ICl_((g)) rarr I_((g))+Cl_((g)), DeltaH=211.3kJ mol^(-1) (d) I_(2(s)) rarr I_(2(g)), DeltaH=62.76kJ mol^(-1) If standard state of iodine and chloride are I_(2(s)) and Cl_(2(g)) , the standard enthalpy of formation for ICl_((g)) is :

For the reaction, A(s) + 3B(g) rarr 4C(g) + d(l) Delta H and Delta U are related as :