When 1pentyne (A) is trated with 4N alco...

When `1`pentyne `(A)` is trated with `4N` alcoholic `KOH` at `175^(@)C`, it is slowely converted into an equilibrium mixture of `1.3%` of `1`pentyne `(A), 95.2% 2`-pentyne `(B)` and `3.5%` of `1,2`-pentandiene `(C )`. The equilibrium was maintained at `175^(@)C`. calculate `DeltaG^(Theta)` for the following equilibria:
`B hArr A, DeltaG^(Theta)underset(1) = ?`
`B hArr C, DeltaG^(Theta)underset(2) =?`
From the calculated value of `DeltaG^(Theta)underset(1)`and `DeltaG^(Theta)underset(2)`, indicate the order of stability of `A,B` and `C`. write a reasonable reaction meachanisum showing all intermediates leading to `A,B` and `C`.

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When 1 pentyne (A) is treated with 4N alcoholic KOH at 175^(@)C , it is slowly converted into an equilibrium mixture of 1.3% of 1 pentyne (A), 95.2% 2 -pentyne (B) and 3.5% of 1,2 -pentandiene (C ) . The equilibrium was maintained at 175^(@)C . Calculate DeltaG^(Theta) for the following equilibria: B hArr A, DeltaG^(Theta)underset(1) = ? B hArr C, DeltaG^(Theta)underset(2) =? From the calculated value of DeltaG^(Theta)underset(1) and DeltaG^(Theta)underset(2) , indicate the order of stability of A,B and C . Write a reasonable reaction mechanism showing all intermediates leading to A,B and C .

When 1-pentyne (A) is treated with 4N alcoholic KOH at 175^@C , it is converted slowly into an equilibrium mixture of 1.3% 1-pentyne(A), 95.2% 2-pentyne(B) and 3.5% of 1,2 pentadiene (C) the equilibrium was maintained at 175^@C , calculate DeltaG^0 for the following equilibria. B hArr A " " DeltaG_1^0 =? B hArr C " " DeltaG_2^0 = ?

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