MCQEasyJEE 2025Ionic Equilibria & pH

JEE Chemistry 2025 Question with Solution

pH of water is 77 at 25C25^\circ \text{C}. If water is heated to 80C80^\circ \text{C}, its pH will:

  • A

    Decrease

  • B

    Remain the same

  • C

    H+H^+ concentration increases, OHOH^- concentration decreases

  • D

    Increase

Answer

Correct answer:A

Step-by-step solution

Standard Method

Given: pH of water is 77 at 25C25^\circ \text{C}, and water is heated to 80C80^\circ \text{C}.

Find: How the pH changes on heating.

Water dissociates as

H2OH++OH\text{H}_2\text{O} \rightleftharpoons \text{H}^+ + \text{OH}^-

At 25C25^\circ \text{C}, the concentrations of H+\text{H}^+ and OH\text{OH}^- are each 107mol/L10^{-7} \, \text{mol/L}, so the pH is 77.

As temperature increases, the ionization of water increases. Therefore, more H+\text{H}^+ and more OH\text{OH}^- ions are produced. Since the concentration of H+\text{H}^+ increases, the numerical value of pH decreases.

This does not mean the water becomes acidic; neutrality still means equal concentrations of H+\text{H}^+ and OH\text{OH}^-.

Therefore, the pH of water decreases when heated to 80C80^\circ \text{C}.

The correct option is A.

Temperature and ionization view

Given: Pure water is neutral at 25C25^\circ \text{C} with pH 77.

Find: The effect of raising temperature to 80C80^\circ \text{C} on pH.

The key idea is that dissociation of water increases with temperature. So at higher temperature, both H+\text{H}^+ and OH\text{OH}^- concentrations increase equally.

Because pH is related to H+\text{H}^+ concentration, an increase in H+\text{H}^+ causes pH to shift to a lower value.

Hence, the pH will decrease, even though the water remains neutral because [H+]=[OH][\text{H}^+] = [\text{OH}^-] still holds.

Therefore, the correct option is A.

Common mistakes

  • Assuming that neutral water must always have pH 77. This is wrong because neutrality means [H+]=[OH][\text{H}^+] = [\text{OH}^-], not necessarily pH 77 at every temperature. Use temperature-dependent ionization of water to judge neutrality.

  • Thinking that if H+\text{H}^+ increases, water must become acidic. This is wrong here because OH\text{OH}^- also increases equally in pure water. Compare both ion concentrations, not only the pH number.

  • Choosing the option that says H+\text{H}^+ increases and OH\text{OH}^- decreases. This is wrong because heating pure water increases dissociation, so both ions increase together. Do not violate the stoichiometry of water ionization.

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