Concept explainers
(a)
Interpretation: Which of the given statements are true regarding a 1.0-M solution of a strong acid
Concept Information:
Strong acids
In strong acids, the ionization of acid is complete. This implies that the concentration of the hydrogen ion or hydronium ion will be equal to the initial concentration of the acid at equilibrium.
For example:
Consider ionization of
0.10-M
At equilibrium (after the completion of ionization), the concentration of
The concentration after ionization will be as follows,
At
which is a very small
Therefore, strong acids have low
To Explain: Which of the given statements are true regarding a 1.0-M solution of a strong acid
The given statement
(b)
Interpretation: Which of the given statements are true regarding a 1.0-M solution of a strong acid
Concept Information:
Strong acids
In strong acids, the ionization of acid is complete. This implies that the concentration of the hydrogen ion or hydronium ion will be equal to the initial concentration of the acid at equilibrium.
For example:
Consider ionization of
0.10-M
At equilibrium (after the completion of ionization), the concentration of
The concentration after ionization will be as follows,
At
which is a very small
Therefore, strong acids have low
To Explain: Which of the given statements are true regarding a 1.0-M solution of a strong acid
The given statement
(c)
Interpretation: Which of the given statements are true regarding a 1.0-M solution of a strong acid
Concept Information:
Strong acids
In strong acids, the ionization of acid is complete. This implies that the concentration of the hydrogen ion or hydronium ion will be equal to the initial concentration of the acid at equilibrium.
For example:
Consider ionization of
0.10-M
At equilibrium (after the completion of ionization), the concentration of
The concentration after ionization will be as follows,
At
which is a very small
Therefore, strong acids have low
To Explain: Which of the given statements are true regarding a 1.0-M solution of a strong acid
(d)
Interpretation: Which of the given statements are true regarding a 1.0-M solution of a strong acid
Concept Information:
Strong acids
In strong acids, the ionization of acid is complete. This implies that the concentration of the hydrogen ion or hydronium ion will be equal to the initial concentration of the acid at equilibrium.
For example:
Consider ionization of
0.10-M
At equilibrium (after the completion of ionization), the concentration of
The concentration after ionization will be as follows,
At
which is a very small
Therefore, strong acids have low
To Explain: Which of the given statements are true regarding a 1.0-M solution of a strong acid
The given statement
Want to see the full answer?
Check out a sample textbook solutionChapter 16 Solutions
Chemistry: Atoms First
- Consider a 0.33 M solution of the diprotic acid H2X. H2X H+(aq)+ HX(aq)Ka1=3.3 10 4 HX H+(aq)+ X2(aq)Ka2=9.7 10 8 Calculate the pH of the solution and estimate [HX-] and [X2-].arrow_forwardWhat is the pH of a solution obtained by mixing 235 mL of NaOH with a pH of 11.57 and 316 mL of Sr(OH)2 with a pH of 12.09? Assume that volumes are additive.arrow_forward12.62 Write the formula of the conjugate acid of each of the following bases, (a) OH-, (b) NHj, (c) CHjNHt, (d) HPO/-, (e) CO.,2’arrow_forward
- Write two BrnstedLowry acid-base reactions and show how they represent proton-transfer reactions.arrow_forwardDifferentiate between the terms strength and concentration as they apply to acids and bases. When is HCl strong? Weak? Concentrated? Dilute? Answer the same questions for ammonia. Is the conjugate base of a weak acid a strong base?arrow_forwardA solution of baking soda, NaHCO3, has a pH of 10.08. What is the percent (by mass) of NaHCO3 in a 235-mL solution? (Assume a density of 1.00 g/mL.)arrow_forward
- Calculate the pH of each solution at 25 °C and indicate whether the solution is acidic or basic.(a) [H3O+] = 1.8 * 10-4 M (b) [OH-] = 1.3 * 10-2 Marrow_forwardConsider 1.3 M HNO2 solution. (a) Show the reaction of dissociation (ionization) of HNO2. (b) Calculate the [H+] in the solution. (c) Calculate the pH of the solution.arrow_forward(a) The hydroxide ion concentration in an aqueous solution of NaOH is 0.10 M. Calculate [H3O*], pH, and pOH for this solution. [H3O+] = 1x10^-13 MpH = 13 POH = 1 (b) The pOH of an aqueous solution of KOH is 4.00. Calculate [H3O*], [OH-], and pH for this solution. [H3O+] = 1.0x10^-4 M [OH-]= 1x10^-10 M pH = 10.0arrow_forward
- A solution at 25 °C has pOH = 10.53. Which of the followingstatements is or are true?(i) The solution is acidic.(ii) The pH of the solution is 14.00 - 10.53.(iii) For this solution, [OH-] = 10-10.53M.(a) Only one of the statements is true.(b) Statements (i) and (ii) are true.(c) Statements (i) and (iii) are true.(d) Statements (ii) and (iii) are true.(e) All three statements are true.arrow_forwardConsider the following ions: Cl-, HS-, NO2-, F-, and HS04-. (a) Which of these ions in water gives an acidic solution? Which gives a basic solution? (b) Which of these ions will have no effect on the pH of an aqueous solution? (c) Which ion is the strongest base? (d) Write a chemical equation for the reaction of the strongest basic ion with water.arrow_forward2. Barbituric acid, HC,H,N,O, a weak organic acid used to manufacture hypnotic drugs and some plastic, has a Ka of 9.8 x 10 An industrial process requires a 0.25 mol/L solution of Barbituric acid. (a) Calculate the H° and pH of the solution. (b) What is the percent ionization of the acid?arrow_forward
- Chemistry: Principles and PracticeChemistryISBN:9780534420123Author:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward MercerPublisher:Cengage LearningChemistry: Principles and ReactionsChemistryISBN:9781305079373Author:William L. Masterton, Cecile N. HurleyPublisher:Cengage LearningChemistry: The Molecular ScienceChemistryISBN:9781285199047Author:John W. Moore, Conrad L. StanitskiPublisher:Cengage Learning
- ChemistryChemistryISBN:9781305957404Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCostePublisher:Cengage LearningChemistry: An Atoms First ApproachChemistryISBN:9781305079243Author:Steven S. Zumdahl, Susan A. ZumdahlPublisher:Cengage Learning