The exothermic formation of `C1F_(3)` is represented by the equation `C1_(2(g)) + 3F_(2(g))hArr2C1F_(3(g))` , `Delta H = - 329 kJ` Which of the following will increase the quantity of `C1F_(3)` in an equilibrium mixture of `C1_(2)`, `F_(2)` and `C1F_(3)`

The exothermic formation of ClF_(3) is represented by thr equation: Cl_(2)(g)+3F_(2)(g) hArr 2ClF_(3)(g), DeltaH=-329 kJ Which of the following will increase the quantity of ClF_(3) in an equilibrium mixture of Cl_(2), F_(2) , and ClF_(3) ?

Formation of ClF_(3) from Cl_(2)and F_(2) is an exothermic process . The equilibrium system can be represented as Cl_(2(g))+3F_(2(g))rArr2ClF_(3(g)),DeltaH=-329kJ Which of the following will increase quantity of ClF_(3) in the equilibrium mixture ?

The equilibrium constant K_(c) for the following reaction at 842^(@) C is 7.90xx10^(-3) . What is K_(p) at same temperature ? (1)/(2)F_(2(g)) hArr F_(g)

The equilibrium constant K_(p) for the following rection at 191^(@)C is 1.24. what is K_(c) ? B(s)+(3)/(2)F_(2)(g)hArr(g)

Given the following equations and values, determine the enthalpy of reaction at 298 K for reaction: C_(2)H_(4)(g) + 6F_(2)(g) rarr 2CF_(4)(g) + 4HF(g) H_(2)(g) + F_(2)(g) rarr 2HF(g) " "Delta H_(1)^(@) = -537 kJ C(s) + 2F_(2)(g) rarr CF_(4)(g) " "DeltaH_(2)^(@) = -680 kJ 2C(s) + 2H_(2)(g) rarr C_(2)H_(4)(g) " "Delta H_(3)^(@) =52 kJ