Lattice Enthalpy Flashcards
Lattice enthalpy, ΔHθLE
enthalpy change when one mole of ionic solid is formed from its gaseous ions under standard conditions
M+(g) + X-(g) -> MX(s)
Enthalpy change of formation, ΔHθf
enthalpy change when one mole of a compound is made from its constituent elements in their standard states under standard conditions
What are standard conditions?
298K, 100kPa
Enthalpy change of atomisation, ΔHθatom
enthalpy change required to produce one mole of gaseous atoms from the element in its standard state
Na(s) -> Na(g)
1/2O2(g) -> O(g)
First ionisation energy, ΔHθ IE1
the energy required to remove an electron from each atom in one mole of gaseous atoms of an element to form one mole of gaseous 1+ ions
First electron affinity, ΔHθ EA1
the energy change associated with converting one mole of gaseous atoms of an element to one mole of singly charged gaseous negative ions
X(g) + e- -> X-(g)
electron affinity - exo or endo?
1st - ALWAYS EXO
2nd onwards - ALWAYS ENDO
lattice enthalpy is an indication of…
the strength of the electrostatic attraction between the ions in the solid compound.
- the more negative ΔHθLE, the stronger the bonds
lattice enthalpy - exo or endo?
ALWAYS EXO
– because ionic bonds are FORMED so energy is released to the surroundings
enthalpy change of solution ΔsolH
dissolving one mole of solute completely under standard conditions
enthalpy change of hydration ΔhydH
dissolving one mole of gaseous ions in water to form one mole of aqueous ions under standard conditions
strength of ionic bonding (and increasing negativity of ΔHθLE) increases with…
increasing ionic charge
decreasing ionic radius
entropy, S, JK-1mol-1
measure of the dispersal of energy in a system
arrange in increasing entropy:
liquid, solid, gas, plasma, solution
Solid Liquid Solution Gas Plasma
entropy is always
positive
