Neglecting the liquid-liquid junction po...

Neglecting the liquid-liquid junction potential, calculate the emf of the following cell at `25^(@)C`
`H_(2) (1 atm)|0.5 M HCOOH|| 1M CH_(3)COOH | (1 atm) H_(2)`
`K_(a) " for " HCOOH and CH_(3) COOH` are `1.77 xx 10^(-4) and 1.8 xx 10^(-5)` respectively.

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Neglecting the liquid junction potential, calculate the emf of the following cell at 25^@C H_2 (1atm) |0.5 M HCOOH||1M CH_3 COOH|H_2(1atm) The dissociation constants of HCOOH and CH_3COOH are 1.77 times 10^-4 and 1.8 times 10^-8 respectively.

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Neglecting the liquid-liquid junction potential, calculate the emf of the following cell at `25^(@)C` `H_(2) (1 atm)|0.5 M HCOOH|| 1M CH_(3)COOH | (1 atm) H_(2)` `K_(a) " for " HCOOH and CH_(3) COOH` are `1.77 xx 10^(-4) and 1.8 xx 10^(-5)` respectively.

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Neglecting the liquid-liquid junction potential, calculate the emf of the following cell at `25^(@)C`
`H_(2) (1 atm)|0.5 M HCOOH|| 1M CH_(3)COOH | (1 atm) H_(2)`
`K_(a) " for " HCOOH and CH_(3) COOH` are `1.77 xx 10^(-4) and 1.8 xx 10^(-5)` respectively.