`Cl_2(g) + KBr(aq)to` ____ + `Br_2(g)`

Consider the reaction: (T = 298 K) Cl_2 (g) + 2 Br^(-) (aq) rarr 2 Cl^(-) (aq) + Br_2 (aq.) The emf of he cell, when [Cl^(-) = (Br_2] = [Br^(-) ] = 0.01M and Cl_2 gas is at 1 atm pressure, will be : ( E^@ for the above reaction is = 29 volt ).

Identify the oxidant and the reductant respectively in the following reaction. Cl_(2)(g) + 2Br^(-)(aq) to 2Cl^(-)(aq) + Br_(2)(aq)

Calculate the equilibrium constant for the following cell reaction. (1)/(2)Cl_(2) (g) +Br^(-) to (1)/(2) Br_(2) (l) +Cl^(-) , E^(Theta) =0.30V

The equilibrium constant for the following reaction at 25^(@)C is 2.9×10^(9) . Calculate standard voltage of the cell . Cl_2(g)+Br_(aq)^(-) ⇌ Br_2(l)+2Cl_(aq)^(-)

Calculate the heat of formation of anhydrous Al_2Cl_6 from the following data: (i) 2Al + 6HCl (aq) to Al_2Cl_6 (aq) + 3H_2(g), DeltaH = - 239.76 kcal (ii) Al_2Cl_6 (s) + aq to Al_2Cl_6(aq), DeltaH = - 153.69 kcal (iii) H_2(g) + Cl_2(g) to 2HCl (g) , DeltaH = -44kcal (iv) HCl (g) + aq to HCl (aq), DeltaH = - 17.31 kcal

The following data were obtained during the first order thermal decomposition of SO_2 Cl_2 at a constant volume : SO_2 Cl_2 (g) to SO_(2 ) (g) + Cl_(2(g)) Calculate the rate constant ( given : log 4=0.6021 , log 2= 0.3010)

The following data were obtained during the first order thermal decomposition of SO_2 Cl_2 at a constant volume : SO_2 Cl_2 (g) to SO_(2 ) (g) + Cl_(2(g)) Calculate the rate constant ( given : log 4=0.6021 , log 2= 0.3010)

For the reaction, H_(2(g)) + Br_(2(g)) to 2HBr_((g)) , the reaction rate = k [H_(2)][Br_(2)]^(1//2) . Which statement is true about this reaction?

Cl_(2)(g)+KI(aq.) to KCl +I_(2)