title: lesson 4 enthalpy of formation and combustion learning objectives: – calculate change in...
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![Page 1: Title: Lesson 4 Enthalpy of Formation and Combustion Learning Objectives: – Calculate change in enthalpy of reactions using enthalpy of formation or combustion](https://reader035.vdocuments.mx/reader035/viewer/2022081419/56649f345503460f94c5172d/html5/thumbnails/1.jpg)
Title: Lesson 4 Enthalpy of Formation and Combustion
Learning Objectives:– Calculate change in enthalpy of reactions using enthalpy of
formation or combustion data
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How to construct an enthalpy change for the reaction Reactants - the elements that make up the product in their
standard state. Theses need to be balanced (you can use fractions as the co-efficients)
Product – The compound formed from the elements. Enthalpy value will be given in the IB booklet.
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Solutions
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You need to know the ΔHθf for all the reactants and products that are
compounds.
The ΔHθf for elements is zero – the element is being formed from the
element so there’s no change in enthalpy.
Note: add when going ‘with’ an arrow, subtract when going against an arrow… (The questions will show arrows in a different directions within the cycle)
Standard Enthalpy of Formation
http://www.youtube.com/watch?v=c8Adft3M8mg
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8 of 36 © Boardworks Ltd 2009
Using enthalpies of formation
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9 of 36 © Boardworks Ltd 2009
Enthalpies of formation calculations
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Calculate the enthalpy change of the combustion of ethanol
Ene
rgy
of t
he s
yste
m
Reaction path
C2H5OH + 3O2
2C + 31/2O2 + 3H2
2CO2 + 3H2O
Compound ΔHf
C2H5OH -277CO2 -394H2O -286
C2H5OH + 3O2 → 2CO2 + 3H2O
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Ene
rgy
of t
he s
yste
m
Reaction path
C2H5OH + 3O2
2C + 31/2O2 + 3H2
2CO2 + 3H2O
Compound ΔHf
C2H5OH -277CO2 -394H2O -286
-277
3x -286
2 x -394
Calculate the enthalpy change of the combustion of ethanol
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-1369KJmol-1
Ene
rgy
of t
he s
yste
m
Reaction path
C2H5OH + 3O2
2C + 31/2O2 + 3H2
2CO2 + 3H2O
Compound ΔHf
C2H5OH -277CO2 -394H2O -286
3x -286
2 x -394
-277
Calculate the enthalpy change of the combustion of ethanol
ΔHc = ∑ΔHofProducts - ∑ΔHofReactants = ( + ) – ( )-2772 x 394 3x -286
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Ene
rgy
of t
he s
yste
m
Reaction path
CaO + H2O
What are the intermediates?
Ca(OH)2
Calculate the enthalpy change of the reaction below
CaO + H2O → Ca(OH)2
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Ene
rgy
of t
he s
yste
m
Reaction path
CaO + H2O
Ca(s) + O2(g) + H2(g)
Ca(OH)2
Calculate the enthalpy change of the reaction below
CaO + H2O → Ca(OH)2
Compound ΔHf
CaO -635Ca(OH)2 -986H2O -286
Now work out ∆Hf
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Ene
rgy
of t
he s
yste
m
Reaction path
CaO + H2O
Ca(s) + O2(g) + H2(g)
Ca(OH)2
Calculate the enthalpy change of the reaction below
CaO + H2O → Ca(OH)2
Compound ΔHf
CaO -635Ca(OH)2 -986H2O -286
∆Hf = - ((-635) + (-286)) + (-986) = -65KJmol-1
-65KJmol-1
-286-986
-635
This way is just following the direction of the arrows of the Hess cycle (elements towards reactants and products). Using the equation will give you the same answer!
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CaO + H2O
Ca(s) + O2(g) + H2(g)
Ca(OH)2
Calculate the enthalpy change of the reaction below
CaO + H2O → Ca(OH)2
Compound ΔHf
CaO -635Ca(OH)2 -986H2O -286
This can be represented as a Hess cycle
-65KJmol-1
-286-986
-635
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4CH3NHNH2 + 5 N2O4
4C(s) + 9N2(g) + 12H2(g) + 10O2(g)
4CO2 + 12 H2O + 9N2
Calculate the enthalpy change of the reaction below Compound ΔHf
CH3NHNH2 +54.0N2O4 -20.0CO2 -393H2O -286
∆H = ∆H2 -∆H1
∆H
∆H2
∆H1
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4CH3NHNH2 + 5 N2O4
4C(s) + 9N2(g) + 12H2(g) + 10O2(g)
4CO2 + 12 H2O + 9N2
Calculate the enthalpy change of the reaction below
CaO + H2O → Ca(OH)2
Compound ΔHf
CH3NHNH2 +54.0N2O4 -20.0CO2 -393H2O -286
∆H1 = (5 x -20) + (4 x 54) = +116KJmol-1
∆H2 = (12 x -286) + (4 x -393) = -5004KJmol-1
∆H = ∆H2 -∆H1
∆H = -5004 – (-116)∆H = -4888KJmol-1
5 x -2012 x -286
4 x 54 4 x -393
∆H
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SO2(g) + 2H2S(g)
3S(s) + 2H2(g) + O2(g)
3S(s) + 2H2O(l)
ΔHθr
Route 1
Route
2
ΔHθf(reactants)
ΔHθf(products)
REACTANTS PRODUCTS
ELEMENTS
Step 1: Write the balanced equation for the reaction. This will be ΔHθ
r
Step 2: Under the equation write a list of the elements present. This must be balanced
STANDARD ENTHALPY OF FORMATION
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SO2(g) + 2H2S(g)
3S(s) + 2H2(g) + O2(g)
3S(s) + 2H2O(l)
ΔHθr
Route 1
Route
2
ΔHθf(reactants)
ΔHθf(products)
REACTANTS PRODUCTS
ELEMENTSStep 3:
ΔHθf[SO2(g)] = -297 kJmol-1
ΔHθf[H2S(g)] = -20.2 kJmol-1
ΔHθf[H2O(l)] = -286kJmol-1
Using Hess’ Law; Route 1 = Route 2
STANDARD ENTHALPY OF FORMATION
ΔHθf values give
the enthalpy change going from the element to the compound
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SO2(g) + 2H2S(g)
3S(s) + 2H2(g) + O2(g)
3S(s) + 2H2O(l)
ΔHθr
Route 1
Route
2
ΔHθf(SO2) +
2 x ΔHθf(H2S)
REACTANTS PRODUCTS
ELEMENTSStep 3:
ΔHθf[SO2(g)] = -297 kJmol-1
ΔHθf[H2S(g)] = -20.2 kJmol-1
ΔHθf[H2O(l)] = -286kJmol-1
Using Hess’ Law; Route 1 = Route 2
STANDARD ENTHALPY OF FORMATION
ΔHθf values give
the enthalpy change going from the element to the compound
3 x ΔHθf(S) +
2 x ΔHθf(H2O)
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SO2(g) + 2H2S(g)
3S(s) + 2H2(g) + O2(g)
3S(s) + 2H2O(l)
ΔHθr
Route 1
Route
2
-297 + (2 x -20.2)
REACTANTS PRODUCTS
ELEMENTSStep 3:
ΔHθf[SO2(g)] = -297 kJmol-1
ΔHθf[H2S(g)] = -20.2 kJmol-1
ΔHθf[H2O(l)] = -286kJmol-1
Using Hess’ Law; Route 1 = Route 2
STANDARD ENTHALPY OF FORMATION
ΔHθf(s)
is zero because its an element
(3 x 0) + (2 x -286)
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Step 4:
ΔHθf(SO2) + ΔHθ
f(H2S) + ΔHθr = 3ΔHθ
f(S) + 2ΔHθf(H20)
-297 + (2 x -20.2) + ΔHθr = (3 x 0) + (2 x -286)
ΔHθr = (3 x 0) + (2 x -286) – (-297 + (2 x 20.2))
= -234.6 kJmol-1
SO2(g) + 2H2S(g)
3S(s) + 2H2(g) + O2(g)
3S(s) + 2H2O(l)
ΔHθr
Route 1
Route
2
-297 + (2 x -20.2)
STANDARD ENTHALPY OF FORMATION
(3 x 0) + (2 x -286)
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24 of 36 © Boardworks Ltd 2009
Using enthalpies of combustion
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25 of 36 © Boardworks Ltd 2009
Enthalpies of combustion calculations
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TASKS:
1. Complete the ‘Enthalpy of Formation’ worksheet
2. Complete the Hess’s Law cut and stick exercise
Terry’s Cutting tip: Keep the left column and top row in one piece
HESS’S LAW AND ENTHALPY OF FORMATION
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1 One mole of carbon burns to give one mole of carbon dioxide, releasing 393.5 kJ. One mole of carbon burns to give one mole of carbon monoxide, releasing 110.5 kJ. Calculate the energy from burning one mole of carbon monoxide.
By Hess’s Law: (SUM)HPRODUCTS - (SUM)HREACTANTSH == (-393.5)-(-100.5)
CO(g) + ½O2(g) CO2(g)
= -393.5
H
= - 283.0 kJ mole-1
= -110.5
Alternative route
C(s) + O2(g)
Elements here because H
f given
Hf[CO(g)] H
f[CO2(g)]
Hf[CO2(g)] = -393.5 kJ mole-1 and H
f[CO(g)] = -110.5 kJ mole-1
What info do you have?Which equation to use?
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2 Use the Hf values given to calculate H of :
CH3COCH3(l) + 4O2(g) 3CO2(g) + 3H2O(l)
Hf[CO2(g)] = - 394 kJmol-1
Hf[CH3COCH3(l)] = - 248 kJmol-1
Hf[H2O(l)] = - 286 kJmol-1
= 3(-394) + 3(-286)
HCH3COCH3(l) + 4O2(g) 3CO2(g) + 3H2O(l)
= -248
H =
+ 3Hf[H2O(l)]
= - 1792 kJ mole-1
Elements here because H
f given
3C(s) + 3H2(g) + 4.5O2(g)
Hf[CH3COCH3(l)] 3H
f[CO2(g)]
= (3(-394) + 3(-286)) – (-248)
(SUM)HPRODUCTS - (SUM)HREACTANTS
What info do you have?Which equation to use?
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3 Calculate Hf [CH4(g)], given
Hf [CO2(g)] = -393.5 kJ mole-1
Hf [H2O(l)] = -285.8 kJ mole-1
Hc[CH4(g)] = -890.3 kJ mole-1
HC(s) + 2H2(g) CH4(g)
= (-393.5) + 2(-285.8)
= - 890.3
H = (-393.5 + 2(-285.8)) – (-890.3) = - 74.8 kJ mole-1
Oxides here because H
C given
CO2(g) + 2H2O(l)
also = HC [C(s)]
also = HC [H2(g)]
HC [C(s)]
+ 2HC [H2(g)] H
c[CH4(g)]
= (SUM)HREACTANTS- (SUM)HPRODUCTS
What info do you have?Which equation to use?
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4 Calculate HR for : C2H4(g) + H2(g) C2H6(g), given
Hc [C2H4(g)] = - 1410.8 kJ mole -1
H c [H2(g)] = - 285.8 kJ mole -1
H c [C2H6(g)] = - 1559.7 kJ mole -1
H C2H4(g) + H2(g) C2H6(g)
H =
= (-1410.8) + (-285.8)
= -1559.7
= - 136.9 kJ mole-1
= ((-1410.8) + (-285.8)) -(-1559.7)
2CO2(g) + 3H2O(l)Oxides here because H
C given
Hc [C2H4(g)]
+ H c [H2(g)]
H c [C2H6(g)]
+ 3.5O2(g) + 3.5O2(g)
(SUM)HREACTANTS- (SUM)HPRODUCTS
What info do you have?Which equation to use?
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NB H values calculated from bond energies are
1. Average values used
2. Gaseous state may not apply.
Also, you may care to remember :
Hr = H
f [PRODUCTS] - Hf [REACTANTS]
APPROXIMATE because:
Hr = H
C [REACTANTS] - HC [PRODUCTS]
Hr = E [REACTANTS] - E [PRODUCTS]
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Key Points
∆Hor is the enthalpy change of a reaction for
molar quantities under standard conditions
∆Hor can be calculated from enthalpies of
combustion/formation using Hess Cycles With formation, the arrows point up With combustion, the arrows point down