Doubtify – JEE Ki Taiyaari, Simple Bhasha Mein

  ❓ Question Liquid A and B form an ideal solution. The vapour pressures of pure liquids A and B are 350 and 750 mm Hg respectively at the same temperature. If xA and xB are the mole fraction of A and B in solution while yA and yB are the mole fraction of A and B in vapour phase then 🖼️ Question Image ✍️ Short Solution For an ideal solution Raoult’s law applies: p A    =    x A   p A ∗ , p B    =    x B   p B ∗ p_A \;=\; x_A\,p_A^*,\qquad p_B \;=\; x_B\,p_B^* ​ Total vapour pressure above the solution: p tot    =    p A + p B    =    x A p A ∗ + x B p B ∗ . p_{\text{tot}} \;=\; p_A + p_B \;=\; x_A p_A^* + x_B p_B^*. The mole fractions in the vapour (via Dalton’s law): y A    =    p A p tot = x A p A ∗ x A p A ∗ + x B p B ∗ , y_A \;=\; \frac{p_A}{p_{\text{tot}}} =\frac{x_A p_A^*}{x_A p_A^* + x_B p_B^*}, y B    =    p B p tot = x B p B ∗ x A p A ∗ + x B p B ∗ . y_B \;=\; \frac{p_B}{p_{\text{tot}}} =\frac{x_B p_B^*}{x_A p_A^* + x_B p_B^*}. Since x B = 1 − x A x_B=1-x_A ​ ...

  ❓ Question Match List - I with List - II List - I List - II (A) Solution of chloroform and acetone (I) Minimum boiling azeotrope (B) Solution of ethanol and water (II) Dimerizes (C) Solution of benzene and toluene (III) Maximum boiling azeotrope (D) Solution of acetic acid in benzene (IV) ΔVₘᵢₓ = 0 🖼️ Question Image ✍️ Short Solution Let’s match each solution with its correct behavior using the concept of ideal and non-ideal liquid mixtures . 🔹 Step 1 — Recall: Types of Solutions Based on Raoult’s Law Ideal Solutions: Obey Raoult’s Law completely. No enthalpy or volume change on mixing. Example: Benzene + Toluene. ⇒ ΔHₘᵢₓ = 0, ΔVₘᵢₓ = 0. Non-Ideal Solutions: Deviate from Raoult’s Law due to differences in molecular forces. Can show positive or negative deviation. 🔹 Step 2 — Identify the Type of Deviation Type Interaction Strength Vapor Pressure Boiling Point Example Positive Deviation A–B < A–A or B–B Higher than expected Minimu...