The ionization constant for water is 1.14*10-15 at 0 °C and 9.60*10- 14 at 60.0 °C. Calculate the value of A H for the ionization of water over this temperature range. O 55.9 kJ/mol O 285.8 kJ/mol O -552 kJ/mol O -55.9 kJ/mol O 552 kJ/mol The ionization constant for water is 1.14*10-15 at 0 °C and 9.60*10- 14 at 60.0 °C. Calculate the value of A S for the ionization of water over this temperature range, using any values you obtained in 21. questions 19 and/or 20, and comment on its sign. A specific value cannot be determined, but it should be negative, which would imply that there is an increase in order, which could result from the hydronium and hydroxide ions structuring the H20 molecules around them due to intermolecular forces. -81.3 J/mol*K; the negative value implies that there is an increase in order, which could result from the hydronium and hydroxide ions structuring the H2O molecules around them due to intermolecular forces. A specific value cannot be determined, nor can its sign be predicted. A specific value cannot be determined, but it should be positive, which would imply that there is an increase in order, which could result from the hydronium and hydroxide ions structuring the H2O molecules around them due to intermolecular forces. 81.3 J/mol*K; the positive value implies that there is an increase in order, which could result from the hydronium and hydroxide ions structuring the H2O molecules around them due to intermolecular forces

just 21 is what im hoping for 

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19 The ionization constant for water is 1.14*10-15 at 0 °C and 9.60*10¯ 14 at 60.0 °C. Calculate the value of A H for the ionization of water over this temperature range. 55.9 kJ/mol O 285.8 kJ/mol O -552 kJ/mol O -55.9 kJ/mol O 552 kJ/mol The ionization constant for water is 1.14*10-15 at 0 °C and 9.60*10" 14 at 60.0 °C. Calculate the value of A S for the ionization of water over this temperature range, using any values you obtained in 21. questions 19 and/or 20, and comment on its sign. A specific value cannot be determined, but it should be negative, which would imply that there is an increase in order, which could result from the hydronium and hydroxide ions structuring the H2O molecules around them due to intermolecular forces. -81.3 J/mol*K; the negative value implies that there is an increase in order, which could result from the hydronium and hydroxide ions structuring the H2O molecules around them due to intermolecular forces. A specific value cannot be determined, nor can its sign be predicted. A specific value cannot be determined, but it should be positive, which would imply that there is an increase in order, which could result from the hydronium and hydroxide ions structuring the H2O molecules around them due to intermolecular forces. 81.3 J/mol*K; the positive value implies that there is an increase in order, which could result from the hydronium and hydroxide ions structuring the H2O molecules around them due to intermolecular forces.