Textbook Question
A 1.000 L sample of HF gas at 20.0 °C and 0.601 atm pressure was dissolved in enough water to make 50.0 mL of hydrofluoric acid. (a) What is the pH of the solution?
272
views
Ch.16 - Aqueous Equilibria: Acids & Bases
Chapter 16, Problem 160
You may have been told not to mix bleach and ammonia. The reason is that bleach (sodium hypochlorite) reacts with ammonia to produce toxic chloramines, such as NH2Cl. For example, in basic solution: OCl-1aq2 + NH31aq2S OH-1aq2 + NH2Cl1aq2 (b) The following mechanism has been proposed for this reaction in basic solution: H2O + OCl-HOCl + OH- Fast, equilibrium constantK1 HOCl + NH3 S H2O + NH2Cl Slow, rate constantk2 Assuming that the first step is in equilibrium and the second step is rate-determining, calculate the value of the rate constant k2 for the second step. Ka for HOCl is 3.5 * 10-8.
Verified step by step guidance1
Identify the rate-determining step in the mechanism, which is the second step: \( \text{HOCl} + \text{NH}_3 \rightarrow \text{H}_2\text{O} + \text{NH}_2\text{Cl} \).
Recognize that the rate law for the reaction is determined by the slow step. Therefore, the rate law is \( \text{Rate} = k_2 [\text{HOCl}][\text{NH}_3] \).
Use the equilibrium expression for the fast step to express \([\text{HOCl}]\) in terms of \([\text{OCl}^-]\) and \([\text{OH}^-]\): \( K_1 = \frac{[\text{HOCl}][\text{OH}^-]}{[\text{OCl}^-]} \).
Rearrange the equilibrium expression to solve for \([\text{HOCl}]\): \([\text{HOCl}] = K_1 \frac{[\text{OCl}^-]}{[\text{OH}^-]}\).
Substitute \([\text{HOCl}]\) from the equilibrium expression into the rate law to find \( k_2 \) in terms of known quantities.
Verified Solution
Video duration:
0m:0s
This video solution was recommended by our tutors as helpful for the problem above.Was this helpful?
Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Equilibrium Constant (K)
The equilibrium constant (K) quantifies the ratio of the concentrations of products to reactants at equilibrium for a reversible reaction. It provides insight into the extent of a reaction and is temperature-dependent. In this context, K1 represents the equilibrium between hypochlorite ions and hypochlorous acid, indicating how much of each species is present when the reaction reaches a stable state.
Recommended video:
Guided course
01:14
Equilibrium Constant K
Rate-Determining Step
The rate-determining step is the slowest step in a reaction mechanism that dictates the overall reaction rate. In this case, the second step involving the reaction of hypochlorous acid with ammonia is the rate-determining step, meaning that its rate constant (k2) is crucial for calculating the overall reaction rate. Understanding this concept is essential for determining how changes in concentration affect the speed of the reaction.
Recommended video:
Guided course
01:15Rate Law Determination
Acid-Base Equilibria
Acid-base equilibria involve the transfer of protons (H+) between species, influencing the concentrations of acids and their conjugate bases in solution. The dissociation constant (Ka) for hypochlorous acid (HOCl) indicates its strength as an acid. In this problem, knowing Ka helps in calculating the equilibrium concentrations of HOCl and its conjugate base, which are necessary for determining the rate constant k2 in the reaction mechanism.
Recommended video:
Guided course
02:00Arrhenius Acids and Bases
Related Practice
Textbook Question
A 1.000 L sample of HF gas at 20.0 °C and 0.601 atm pressure was dissolved in enough water to make 50.0 mL of hydrofluoric acid. (b) To what volume must you dilute the solution to triple the percent dissociation?
380
views
Open Question
A 200.0 mL sample of 0.350 M acetic acid (CH3CO2H) was allowed to react with 2.000 L of gaseous ammonia at 25 °C and a pressure of 650.8 mm Hg. Assuming no change in the volume of the solution, calculate the pH and the equilibrium concentrations of all species present (CH3CO2H, CH3CO2-, NH3, NH4+, H3O+, and OH-). Values of equilibrium constants are listed in Appendix C.