Concept explainers
(a)
Interpretation:
The dissociation reactions and
Concept introduction:
The strength of acids and bases can be determined on the basis of their dissociation reactions and their dissociation constants. Those acids or bases which dissociate almost completely are strong acids or strong bases and those which dissociate to smaller extents are weak or moderately weak acids or weak bases.
Answer to Problem 9.83E
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
(b)
Interpretation:
The dissociation reactions and
Concept introduction:
The strength of acids and bases can be determined on the basis of their dissociation reactions and their dissociation constants. Those acids or bases which dissociate almost completely are strong acids or strong bases and those which dissociate to smaller extents are weak or moderately weak acids or weak bases.
Answer to Problem 9.83E
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
Explanation of Solution
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
The
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
(c)
Interpretation:
The dissociation reactions and
Concept introduction:
The strength of acids and bases can be determined on the basis of their dissociation reactions and their dissociation constants. Those acids or bases which dissociate almost completely are strong acids or strong bases and those which dissociate to smaller extents are weak or moderately weak acids or weak bases.
Answer to Problem 9.83E
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
Explanation of Solution
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
The
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
(d)
Interpretation:
The dissociation reactions and
Concept introduction:
The strength of acids and bases can be determined on the basis of their dissociation reactions and their dissociation constants. Those acids or bases which dissociate almost completely are strong acids or strong bases and those which dissociate to smaller extents are weak or moderately weak acids or weak bases.
Answer to Problem 9.83E
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
Explanation of Solution
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
The
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
(e)
Interpretation:
The dissociation reactions and
Concept introduction:
The strength of acids and bases can be determined on the basis of their dissociation reactions and their dissociation constants. Those acids or bases which dissociate almost completely are strong acids or strong bases and those which dissociate to smaller extents are weak or moderately weak acids or weak bases.
Answer to Problem 9.83E
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
Explanation of Solution
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
The
The dissociation reaction for the given weak acid,
The dissociation constant for the given reaction is,
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Chapter 9 Solutions
Bundle: Chemistry for Today: General, Organic, and Biochemistry, Loose-Leaf Version, 9th + LMS Integrated OWLv2, 4 terms (24 months) Printed Access Card
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- Consider a solution prepared by mixing a weak acid HA. HCl, and NaA. Which of the following statements best describes what happens? a. The H+ from the HCl reacts completely with the A from the NaA. Then the HA dissociates somewhat. b. The H+ from the HCl reacts somewhat with the A from the NaA to make HA, while the HA is dissociating. Eventually you have equal amounts of everything. c. The H+ from the HCl reacts somewhat with the A from the NaA to make HA while the HA is dissociating. Eventually all the reactions have equal rates. d. The H+ from the HCl reacts completely with the A from the NaA. Then the HA dissociates somewhat until too much H+ and A are formed, so the H+ and A react to form HA, and so on. Eventually equilibrium is reached. Justify your choice, and for choices you did not pick, explain what is wrong with them.arrow_forwardThe ion HTe- is an amphiprotic species; it can act as either an acid or a base.. (a) What is Ka for the acid reaction of HTe- with H2O?. (b) What is Kb, for the reaction in which HTe- functions as a base in water?. (c) Demonstrate whether or not the second ionization of H2Te can be neglected in the calculation of [HTe-] in a 0.10 M solution of H2Te.arrow_forwardCalculate [CO32] in a 0.010-M solution of CO2 in water (usually written as H2CO3). If all the CO32 in this solution comes from the reaction HCO3(aq)H+(aq)+CO32(aq) what percentage of the H+ ions in the solution is a result of the dissociation of HCO3? When acid is added to a solution of sodium hydrogen carbonate (NaHCO3), vigorous bubbling occurs. How is this reaction related to the existence of carbonic acid (H2CO3) molecules in aqueous solution?arrow_forward
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- Cyanic acid, HOCN, is a weak acid with a Ka value of 3.5 104 at 25C. In a 0.293 M solution of the acid, the degree of ionization is 3.5 102. Calculate the degree of ionization in a 0.293 M solution to which sufficient HCl is added to make it 4.19 102 M HCl in the given volume.arrow_forwardEven though both NH3 and C6H5NH2 are weak bases, NH3 is a much stronger acid than C6H5NH2. Which of the following is correct at equilibrium for a solution that is initially 0.10 M in NH3 and 0.10 M in C6H5NH2? (a) [OH]=[NH4+] (b) [NH4+]=[C6H5NH3+] (c) [OH]=[C6H5NH3+] (d) [NH3]=[C6H5NH2] (e) both a and b are correctarrow_forwardIn dilute aqueous solution HF acts as a weak acid. However, pure liquid HF (boiling point = 19.5 C) is a strong acid. In liquid HF, HNO3 acts like a base and accepts protons. The acidity of liquid HF can be increased by adding one of several inorganic fluorides that ale Lewis acids and accept F- ion (for example, BF3 or SbF5]. Write balanced chemical equations for the reaction of pure HNO3 with pure HF and of pure HF with BF3.arrow_forward
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