H2 Chemistry 8 - Chemical Equilibrium Test and Flashcards

explain what is meant by reversible reaction

reaction which can proceed in both → & ← directions; equilibrium reached when both pdt, rxt present in reaction mixture

explain what is meant by dynamic equilibrium

refers to state of balance in reversible rxn >

rate of → rxn = rate of ← rxn >

conc of all rxt, pdt remain constant

state La Chatelier's Principle

when system @ equilibrium disturbed by △ in conditions, POE shifts to counteract effect of change, re-establish equilibrium

describe effects of changes in conc/partial pressure on system at equilibrium and its equilibrium constant

system

species added/removed, conc/partial pressure ↑/↓ >

by LCP, system favours →/← rxn to remove/form species in order to decrease/increase [species], re-establish equilibrium >

>pdt react to produce >rxt/>rxt react to produce >pdt

K_c/K_p

not affected

describe effects of changes in total pressure on system at equilibrium and its equilibrium constant

system

pressure inversely proportional to volume

volume ↑/↓, total pressure ↓/↑ >

by LCP, system favours →/← rxn to increase/decrease total no. of gas particles to ↑/↓ total pressure >

POE shifts → ←

K_c/K_p

not affected

describe effects of changes in temp on system at equilibrium and its equilibrium constant

system

△H>0, endothermic

△H<0, exothermic

temp ↑/↓, system favours →/← rxn to absorb/evolve some heat to ↓/↑ temp

K_c/K_p

when →/← rxn favoured, [pdt]/[rxt] △!!!

define equilibrium constant(K_c) in terms of conc

aA + bB ⇌ cC + dD

K_c = [C]^c_eqm[D]^d_eqm/[A]^a_eqm[B]^b_eqm

unit of K_c = (moldm^-3)^(c+d)-(a+b)

[H2O(l)] omitted when...

eqm in aq medium, H2O is solvent, [H2O] >>

[H2O(l)] relatively constant, amount formed/reacted away very small

define equilibrium constant(K_p) in terms of partial pressures

(gaseous systems only)

aA(g) + bB(g) ⇌ cC(g) + dD(g)

K_p = p_C^c x p_C^d /p_C^a x p_C^b

p_X = partial pressure of gas X @ eqm(atm,Pa,Nm^-2)

unit of K_p = (atm/Pa/Nm^-2)^(c+d)-(a+b)

how is position of equilibrium(K) dependent on ∆G^Ɵ?

∆G^Ɵ > 0(spontaneous), K > 1, then;

position of eqm lies far right(K>>1, reaction proceeds near completion)

∆G^Ɵ < 0(non-spontaneous), K < 1, then;

position of eqm lies far left(KK<<1, reaction hardly proceeds)

describe and explain conditions of Haber process

N₂(g) + 3H₂(g) ⇌ 2 NH₃(g), ∆H^Ɵ=−92kJmol⁻¹

optimum temp

450-500^oC

low temp shifts POE →, favour → rxn >

NH₃(g) yield ↑, but rate too slow @ low temp >

moderate temp(450-500^oC) allow reach POE @ higher rate while relatively high yield

optimum pressure

200-250atm

high pressure shifts POE →, favour → rxn >

NH₃(g) yield ↑, reach POE ↑, but too ex >

moderate pressure(200-250atm) allow relatively high yield @ low cost

catalyst

finely divided Fe catalyst

reach POE @ faster rate; catalyst ↑ rate of both →/← rxn by same extent >

yield constant

how to calculate Kc/Kp or equilibrium quantities of species from data?

use ICE; Initial, Change, Equilibrium

quantities in mol, moldm^-3, atm >

calculate eqm amount of species in rxn >

form K_c/K_p eqn with units >

obtain K_c/K_p or eqm quantity of species

Flashcards: H2 Chemistry 8 - Chemical Equilibrium