13.2.2 Applications of Born-Haber Cycles

Cards (98)

What is the purpose of Born-Haber cycles?
Calculate lattice energy
Born-Haber cycles illustrate the energy changes during the formation of an ionic compound from its elements in their standard states.
Match the enthalpy change with its notation:
Atomisation of the metal ↔️ $ΔH_{at_{metal}}$
Ionisation of the metal ↔️ $ΔH_{IE}$
Electron affinity of the non-metal ↔️ $ΔH_{EA}$
Lattice energy ↔️ $ΔH_{LE}$
The key equation for Born-Haber cycles is $ΔH_{f}$
The lattice energy in a Born-Haber cycle is always negative.
Arrange the following steps in the correct order to describe the formation of an ionic compound in a Born-Haber cycle:
1️⃣ Atomisation of the metal
2️⃣ Ionisation of the metal
3️⃣ Atomisation of the non-metal
4️⃣ Electron affinity of the non-metal
5️⃣ Formation of the ionic compound
Match the enthalpy change with its description:
Atomisation of the metal ↔️ Solid metal to gaseous atoms
Ionisation of the metal ↔️ Gaseous metal atoms lose electrons
Electron affinity of the non-metal ↔️ Gaseous non-metal atoms gain electrons
Lattice energy ↔️ Gaseous ions form a solid lattice
The total enthalpy change for the entire Born-Haber cycle equals the enthalpy of formation
What is the primary use of Born-Haber cycles?
Calculate lattice energy
Born-Haber cycles illustrate the energy changes during the formation of an ionic compound from its elements in their standard states.
Match the enthalpy change with its notation:
Atomisation of the metal ↔️ $ΔH_{at_{metal}}$
Ionisation of the metal ↔️ $ΔH_{IE}$
Electron affinity of the non-metal ↔️ $ΔH_{EA}$
Lattice energy ↔️ $ΔH_{LE}$
The key equation for Born-Haber cycles is $ΔH_{f}$
The lattice energy in a Born-Haber cycle is always negative.
Arrange the following steps in the correct order to describe the formation of an ionic compound in a Born-Haber cycle:
1️⃣ Atomisation of the metal
2️⃣ Ionisation of the metal
3️⃣ Atomisation of the non-metal
4️⃣ Electron affinity of the non-metal
5️⃣ Formation of the ionic compound
Match the enthalpy change with its description:
Atomisation of the metal ↔️ Solid metal to gaseous atoms
Ionisation of the metal ↔️ Gaseous metal atoms lose electrons
Electron affinity of the non-metal ↔️ Gaseous non-metal atoms gain electrons
Lattice energy ↔️ Gaseous ions form a solid lattice
The total enthalpy change for the entire Born-Haber cycle equals the enthalpy of formation
Constructing a Born-Haber cycle involves relating enthalpy changes to the formation of an ionic compound from its elements.
Match the step in a Born-Haber cycle with its description:
Sublimation of the metal ↔️ Solid metal becomes gaseous atoms
Ionisation of the metal ↔️ Gaseous metal atoms lose electrons
Electron affinity of the non-metal ↔️ Gaseous non-metal atoms gain electrons
What is the lattice energy of an ionic compound defined as?
Energy released forming a lattice
The Born-Haber cycle equation relates the enthalpy of formation to the sum of various enthalpy changes
Constructing a Born-Haber cycle involves describing the formation of an ionic compound from its elements in a series of steps.
Steps in constructing a Born-Haber cycle
1️⃣ Sublimation of Metal
2️⃣ Ionisation of Metal
3️⃣ Dissociation of Non-metal
4️⃣ Electron Affinity of Non-metal
5️⃣ Formation of Ionic Compound
6️⃣ Lattice Energy of Ionic Compound
What is the enthalpy change notation for the sublimation of a metal?
$ΔH_{sub}$
The ionisation of a metal involves removing electrons
What is the process called when a non-metal atom gains electrons to form negative ions?
Electron Affinity
Lattice energy is the energy released when gaseous ions form a solid lattice
Match the key concepts with their descriptions:
Sublimation ↔️ Requires energy
Electron Affinity ↔️ Forms negative ions
Lattice Energy ↔️ Exothermic process
What is the calculated lattice energy of NaCl in kJ/mol using the Born-Haber cycle example?
-788
The Born-Haber equation for calculating lattice energy is ΔH_{L}E = ΔH_{f} - (ΔH_{s}ub + ΔH_{I}E + ΔH_{diss} + ΔH_{E}A)</latex>, where $ΔH_{f}$ represents the enthalpy of formation
The Born-Haber cycle calculates lattice energy by summing enthalpy changes for various steps in the compound's formation.
Arrange the following steps in the correct order for calculating lattice energy using a Born-Haber cycle:
1️⃣ Sublimation of Metal
2️⃣ Ionisation of Metal
3️⃣ Dissociation of Non-metal
4️⃣ Electron Affinity of Non-metal
5️⃣ Formation of Ionic Compound
6️⃣ Lattice Energy of Ionic Compound
What is the key equation for calculating lattice energy using a Born-Haber cycle?
$ΔH_{L}E =$ $ΔH_{f} - (ΔH_{sub} +$ $ΔH_{IE} +$ $ΔH_{diss} +$ $ΔH_{EA})$
Sublimation of a metal involves converting it from a solid to a gas
What is the process called when metal atoms are converted to ions?
Ionisation
The dissociation of a non-metal involves breaking molecules into atoms
What happens to non-metal atoms during electron affinity?
Gain electrons
Order the steps involved in calculating lattice energy using a Born-Haber cycle:
1️⃣ Sublimation of metal
2️⃣ Ionisation of metal
3️⃣ Dissociation of non-metal
4️⃣ Electron affinity of non-metal
5️⃣ Formation of ionic compound
The sublimation of a metal is an endothermic process.
Match the enthalpy change notation with its description:
$ΔH_{sub}$ ↔️ Sublimation of metal
$ΔH_{IE}$ ↔️ Ionisation of metal
$ΔH_{diss}$ ↔️ Dissociation of non-metal
$ΔH_{EA}$ ↔️ Electron affinity of non-metal
For NaCl, what does a Born-Haber cycle help calculate?
Lattice energy