Given, CH(3)COOH(aq)toCH(3)COO^(-)(aq)+H...

Given, `CH_(3)COOH(aq)toCH_(3)COO^(-)(aq)+H^(+)(aq)`
`DeltaH_(rxn)^(@)=0.004" kcal "gm^(-1)`
Enthalpy change when 1 mole of `Ba(OH)_(2)`, a strong base, is completely neutralized by `CH_(3)COOH(aq)` is (`DeltaH^(@)` of neutralization of strong acid with strong base is=`-13.7" kcal "mol^(-1)`)

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Enthalpy of neutralisation of acetic acid by NaOH is 50.6 kJ/mol. Calculate Delta H for ionisation of CH_(3)COOH . Given, the heat of neutralisation of a strong acid with a strong base is -57.3 kJ/mol.

Enthalpy of neutralisation of acetic acid by NaOh is -50.6 kJ mol^(-1) . Calculate DeltaH for ionisation of CH_(3)COOH . Given. The heat of neutralisation of a strong acid with a strong base is -55.9 kJ mol^(-1) .

Enthalpy of neutralisation of acetic acid by NaOH is -50.6 kJ mol^(-1) . Calculate DeltaH for ionisation of CH_(3)COOH . Given. The heat of neutralisation of a strong acid with a strong base is -55.9 kJ mol^(-1) .

The heat of neutralization of any strong acid and strong base is always constant and DeltaH=-57.3kJ . This because.

Given, `CH_(3)COOH(aq)toCH_(3)COO^(-)(aq)+H^(+)(aq)` `DeltaH_(rxn)^(@)=0.004" kcal "gm^(-1)` Enthalpy change when 1 mole of `Ba(OH)_(2)`, a strong base, is completely neutralized by `CH_(3)COOH(aq)` is (`DeltaH^(@)` of neutralization of strong acid with strong base is=`-13.7" kcal "mol^(-1)`)

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Given, `CH_(3)COOH(aq)toCH_(3)COO^(-)(aq)+H^(+)(aq)`
`DeltaH_(rxn)^(@)=0.004" kcal "gm^(-1)`
Enthalpy change when 1 mole of `Ba(OH)_(2)`, a strong base, is completely neutralized by `CH_(3)COOH(aq)` is (`DeltaH^(@)` of neutralization of strong acid with strong base is=`-13.7" kcal "mol^(-1)`)