Problem 1
Question
Consider two beakers of pure water at different temperatures. How do their \(\mathrm{pH}\) values compare? Which is more acidic? more basic? Explain.
Step-by-Step Solution
Verified Answer
In conclusion, when comparing two beakers of pure water at different temperatures, the beaker with a higher temperature will have a lower pH value, making it relatively more acidic. Conversely, the beaker with a lower temperature will have a higher pH value, making it relatively more basic. This is due to the temperature-dependent nature of the ion product of water and the increased dissociation of water molecules at higher temperatures. However, both beakers are still considered neutral, as their H+ and OH- ion concentrations are equal.
1Step 1: Understand the dissociation of water molecules and pH
Water molecules can dissociate into hydrogen ions (H+) and hydroxide ions (OH-), a process called autoionization. The equilibrium constant for this reaction, called the ion product of water (Kw), is defined as:
Kw = [H+][OH-]
The pH of a solution is defined as the negative logarithm of the hydrogen ion concentration:
pH = -log([H+])
In pure water at standard conditions (25°C, 1 atm), the concentration of both ions is equal, and Kw=1.0×10^(-14).
2Step 2: Determine the effect of temperature on the ion product of water
The ion product of water (Kw) is temperature-dependent. As the temperature of water increases, the equilibrium constant for the autoionization of water also increases, causing more dissociation of water molecules and higher concentrations of H+ and OH- ions in the solution. This means that the pH of pure water decreases with increasing temperature, as pH depends on the concentration of H+ ions.
3Step 3: Compare the pH values and determine the acidic and basic nature of the water samples
Since the pH of pure water decreases with increasing temperature, a beaker of pure water at a higher temperature will have a lower pH value (more acidic conditions) compared to a beaker of pure water at a lower temperature (more basic conditions). However, it's important to note that pure water is still considered neutral (neither acidic nor basic) in both cases, as the concentrations of H+ and OH- ions are equal.
4Step 4: Conclusion
In conclusion, the pH values of two beakers of pure water at different temperatures will differ due to the temperature-dependent nature of the ion product of water. As the temperature increases, the pH value of pure water will decrease, causing it to be more acidic compared to pure water at a lower temperature, which will be more basic. Nonetheless, pure water remains neutral in both cases, as the concentrations of H+ and OH- ions are equal.
Other exercises in this chapter
Problem 2
Differentiate between the terms strength and concentration as they apply to acids and bases. When is HCl strong? Weak? Concentrated? Dilute? Answer the same que
View solution Problem 3
Sketch two graphs: (a) percent dissociation for weak acid HA versus the initial concentration of \(\mathrm{HA}\left([\mathrm{HA}]_{0}\right)\) and \((\mathrm{b}
View solution Problem 4
Consider a solution prepared by mixing a weak acid HA and \(\mathrm{HCl}\). What are the major species? Explain what is occurring in solution. How would you cal
View solution