The wide range of solubility of ionic compounds in water has to be explained. Concept Introduction: Solubility of an ionic compound is primarily influenced by – lattice energy, hydration energy and ion-dipole interaction. The energy released when gaseous state ions of unlike charges that are infinitely farther apart combine to form a stable ionic solid is called Lattice energy . Conversely, the energy required to break the electrostatic force of attraction between the ions of unlike charges in the ionic solid and revert them to gaseous state is also termed as Lattice energy of an ionic solid. Hydration energy refers to the quantity of energy released when one mole of ion gets hydrated at constant pressure. Hydration energy of an ion depends upon its ionic size. Ion-dipole attraction is the attractive force between ion (from the solute) and a dipole (from polar solvent).

Question

2. Platinum and other group 10 metals often act as solid phase hydrogenation catalysts for unsaturated hydrocarbons such as propylene, CH3CHCH2. In order for the reaction to be catalyzed the propylene molecules must first adsorb onto the surface. In order to completely cover the surface of a piece of platinum that has an area of 1.50 cm² with propylene, a total of 3.45 x 10¹7 molecules are needed. Determine the mass of the propylene molecules that have been absorbed onto the platinum surface.

Answer 1

Question

Chapter 12, Problem 12.4QP

Interpretation Introduction

Interpretation:

The wide range of solubility of ionic compounds in water has to be explained.

Concept Introduction:

Solubility of an ionic compound is primarily influenced by – lattice energy, hydration energy and ion-dipole interaction.

The energy released when gaseous state ions of unlike charges that are infinitely farther apart combine to form a stable ionic solid is called Lattice energy. Conversely, the energy required to break the electrostatic force of attraction between the ions of unlike charges in the ionic solid and revert them to gaseous state is also termed as Lattice energy of an ionic solid.

Hydration energy refers to the quantity of energy released when one mole of ion gets hydrated at constant pressure. Hydration energy of an ion depends upon its ionic size.

Ion-dipole attraction is the attractive force between ion (from the solute) and a dipole (from polar solvent).

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