CHEMISTRY >CUSTOM<
CHEMISTRY >CUSTOM<
8th Edition
ISBN: 9781309097182
Author: SILBERBERG
Publisher: MCG/CREATE
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Chapter 19, Problem 19.142P

(a)

Interpretation Introduction

Interpretation:

Species among H2CO3, HCO3-, CO32- having highest concentration at pH=8.5 has to be calculated.

Concept introduction:

pH:

pH is a scale used to specify the acidity or basicity a solution.  It ranges from 014.  pH 7.0 is considered as neutral solution, pH more than 7.0 is taken as basic solution whereas pH less than 7.0 is considered as acidic solution (at 25οC).  It is the measurement of activity of free H+ and OH- in solution.

pKa:

pKa is the negative log of acid dissociation constant that determines the strength of the acid. Lower the pKa value stronger is the acid.

pKa1 is the 1st dissociation constant for the acid and pKa2 is the 2nd dissociation constant of the acid.

(a)

Expert Solution
Check Mark

Answer to Problem 19.142P

Among all the three species, HCO3- is more at pH=8.5.

Explanation of Solution

The equation considered as,

  H2CO3H++HCO3-...(Ka1)

  HCO3-H++CO32-...(Ka2)

  pKa=logKa

Now, for the 1st equation,

  H2CO3H++HCO3-...(Ka1)

  Ka1=4.5×107

  pKa1=log(4.5×107)

  pKa1=6.4368

Now, for the 2nd equation,

  HCO3-H++CO32-...(Ka2)

  Ka2=4.7×1011

  pKa2=log(4.7×1011)

  pKa2=10.3279

From the above data it is shown that, pKa2>pH but pKa1<pH. (pH=8.5 given)

If pKa1 is less that means Ka1 value is more which means the 1st dissociation occurs rapidly and hence HCO3- will be more in medium (as the pH is basic so the conjugate base is more in concentration.)

Again, pKa2 is more that means Ka2 is less and hence 2nd dissociation is slower in rate. Hence in medium the reactant i.e. HCO3- will be more.

Hence among all the three species HCO3- is more at pH=8.5.

(b)

Interpretation Introduction

Interpretation:

At pH=8.5 the concentration ratio of [HCO3-][H2CO3] and [CO32-][HCO3-] has to be calculated.

Concept introduction:

pH:

pH is a scale used to specify the acidity or basicity a solution. It ranges from 014. pH 7.0 is considered as neutral solution, pH more than 7.0 is taken as basic solution whereas pH less than 7.0 is considered as acidic solution (at 25οC). It is the measurement of activity of free H+ and OH- in solution.

pKa:

pKa is the negative log of acid dissociation constant that determines the strength of the acid. Lower the pKa value stronger is the acid.

pKa1 is the 1st dissociation constant for the acid and pKa2 is the 2nd dissociation constant of the acid.

Henderson-Hasselbalch Equation:

This equation is used to determine the pH of a buffer solution.  Ka is the given quantity which is acid dissociation constant. It is done for a given concentration of acid and its conjugate base.

  pH=pKa+log[salt][acid]

(b)

Expert Solution
Check Mark

Answer to Problem 19.142P

The value of concentration ratios of [HCO3-][H2CO3] and [CO32-][HCO3-] are respectively 1.4×102 and 1.48×102.

Explanation of Solution

The equation considered as,

  H2CO3H++HCO3-...(Ka1)

  HCO3-H++CO32-...(Ka2)

  pKa=logKa

For the 1st equation,

  H2CO3H++HCO3-...(Ka1)

Thus the pKa is calculated as,

  Ka1=4.5×107

  pKa1=log(4.5×107)

  pKa1=6.4368

Thus the pH is calculated as,

  pH=pKa+log[salt][acid]

  pH=pKa1+log[HCO3-][H2CO3]8.5=6.35+log[HCO3-][H2CO3]

The value of concentration ratios of [HCO3-][H2CO3]=1.4×102

For the 2nd equation,

  HCO3-H++CO32-...(Ka2)

Thus the pKa is calculated as,

  Ka2=4.7×1011

  pKa2=log(4.7×1011)

  pKa2= 10.33

Thus the pH is calculated as,

  pH=pKa2+log[CO32-][HCO3-]8.5=10.33+log[CO32-][HCO3-][CO32-][HCO3-]=1.48×102

The value of concentration ratios of [CO32-][HCO3-]=1.48×102

Thus the value of concentration ratios of [HCO3-][H2CO3] and [CO32-][HCO3-] are respectively 1.4×102 and 1.48×102.

(c)

Interpretation Introduction

Interpretation:

Reason for lower pH at deep sea level has to be interpreted.

Concept introduction:

pH:

pH is a scale used to specify the acidity or basicity a solution. It ranges from 014. pH 7.0 is considered as neutral solution, pH more than 7.0 is taken as basic solution whereas pH less than 7.0 is considered as acidic solution (at 25οC). It is the measurement of activity of free H+ and OH- in solution.

Photosynthesis:

The process of photosynthesis occurs in plants for their survival.  In this process carbon dioxide is absorbed from nature and oxygen is released to nature by plants.  Sunlight is the main important component for photosynthesis to occur.  Here glucose is formed.

  6CO2+6H2OsunlightC6H12O6+6O2

Respiration:

Respiration is a biochemical process in which in the cells of organisms energy is evolved due to reaction between oxygen and glucose and by this process carbon dioxide is released along with water and ATP

  C6H12O6+6O26CO2+6H2O+ATP

(c)

Expert Solution
Check Mark

Explanation of Solution

The acidity of the sea water is due to presence of dissolved carbon dioxide in the water.

On the upper sea level there are plants and also on upper level of sea sunlight can enter. As a result of that on the upper level of sea photosynthesis occurs and according to the process of photosynthesis carbon dioxide is taken up by plants.  This results a decrease in the dissolved carbon dioxide concentration in the upper sea level.

But still due to the respiration by the sea animals and the plants at upper level there will be some amount of dissolved carbon dioxide in the upper level. So sea water at upper level is acidic but less in amount.

However, in deep sea level, pH=7.5 that means water is more acidic here.  In deep sea level pressure is very high and sunlight cannot enter and thus plants cannot survive there but some animals only can survive there.  Hence photosynthesis does not occur there only respiration occurs.  As a result of that the concentration of dissolved carbon dioxide is more in the deep-sea level than in the upper level.  So the acidity here is more.

Hence, deep sea water has a higher acidity the value of pH=7.5.

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Chapter 19 Solutions

CHEMISTRY >CUSTOM<

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