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)`?

The exothermic formation of ClF_3 is represented by the equations. Cl_2 (g) +3F_2 (g) hArr 2ClF_3 (g) : Delta ,H = -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 ?

For the reaction N_(2)(g) + 3H_(2)(g) hArr 2NH_(3)(g), DeltaH=?

For the reaction : ClF_(2)(g)+3F_(2)(g)hArr2ClF_(3)(g),DeltaH=-329 kJ, dissociation of ClF_(3)(g) will be favourate by :

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 ? i(A)ncrease in temperature, decrease in pressure, addition of C l 2 (B)Decrease in temperature and pressure, addition of C l F 3 (C)Increase in temperature and pressure, removal of C l 2 (D) Decrease in temperature, increase in pressure, addition of F 2

In reaction N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g), DeltaH=-93.6kJ /mole, the yield of ammonia does not increase when

For the reaction : PCl_(5) (g) rarrPCl_(3) (g) +Cl_(2)(g) :

For the reaction : PCl_(5) (g) rarrPCl_(3) (g) +Cl_(2)(g) :

2H_2(g) +CO(g) hArr CH_3OH(g) , DeltaH=-92.2 kJ. Which of the following condition will shift the equilibrium in the forward direction ?

For the reaction N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g),DeltaH=-93.6 kJ mol^(-1) . The concentration of H_(2) at equilibrium will increase if

For the reaction N_(2)(g) + 3H_(2)(g) rarr 2NH_(3)(g) , DeltaH = -93.6 KJ mol^(-1) the formation of NH_(3) is expected to increase at :