Acetic acid forms dimer in vapour phase. The dimer is held together by two hydrogen bonds with a total strength of 66.5 kJ per mole of dimer. If at `25^(@)C`, the equilibrium constant for the dimerisation is `1.3xx10^(3)`. `DeltaS^(@)` for the reaction `2CH_(3)COOH hArr (CH_(3)COOH)_(2)` will be `(log 1.3=0.1139)`

Acetic acid CH_(3)COOH can form a dimer (CH_(3)COOH)_(2) in the gas phase. The dimer is held togther by two H- bonds with a total strength of 60.0 kJ per mole of dimer If at 25^(@)C , the equilibrium constant for the dimerisation is 1.3 xx 10^(3) , calculate DeltaS^(Theta) for the reaction 2CH_(3)COOH (g) hArr (CH_(3)COOH)_(2)(g)

Acetoc acid CH_(3)COOH can form a dimer (CH_(3)COOH)_(2) in the gas phase. The dimer is held togther by two H- bonds with a total strength of 60.0 kJ per mole of dimer If at 25^(@)C , the equilibrium constant for the dimerisation is 1.3 xx 10^(3) , calculate DeltaS^(Theta) for the reaction 2CH_(3)COOH (g) hArr (CH_(3)COOH)_(2)(g)

Dissociation constants of CH_(3)COOH and NH_(4)OH are 1.8xx10^(5) each at 25^(@)C . The equilibrium constant for the reaction of CH_(3)COOH and NH_(4)OH will be -

Dissociation constants of CH_(3)COOH and NH_(4)OH are 1.8xx10^(5) each at 25^(@)C . The equilibrium constant for the reaction of CH_(3)COOH and NH_(4)OH will be -

The dissociation constants of acetic acid and HCN at 25^(@)C are 1.5xx10^(-4) and 4.5xx10^(-10) respectively. The equilibrium constant for the equilibrium. CN^(-)+CH_(3)COOH hArr HCN+CH_(3)COO^(-)

30 ml of (N/5) CH_(3)COOH is added in NaOH solution , then at the end point of the reaction , the equilibrium constant of the reaction at 25^(@)C ( given that K_(CH_(3)COOH)= 10^(-5) ) will be