calculation of energy changes if a body changes its temperature then it changes its energy content ...
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Calculation of energy changes
If a body changes its temperature then it changes its energy contentEnergy changes can be calculatedUnits of energy = JoulesGeneral relationship: cardΔE = mass x specific heat x temp change (g) (J g-1 0C-1) (0C)
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ΔE = mass x specific heat x temp change
Specific heat = amount of energy to change
temperature of 1.00g by 10C Very variable : water 4.2 j 0C-1 g-1
gold 0.13 j 0C-1 g-1
Iron 0.49 j 0C-1 g-1
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ΔE = mass x specific heat x temp change
Copper pipes carrying hot water have a mass of 10 kg. Calculate the energy required to heat up the pipes from 250C to 800C (sp. ht Cu = 0.385 j 0C-1 g-1)
Some vehicles have engines which weigh 0.25 tonnes. 1 mole of petrol when burned completely produces 5512 Kj of energy. Estimate how much petrol is needed just to heat up the engine? (sp. ht steel = 0.49 j 0C-1 g-1)
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Calculations involving solutions
What to use for “m” can be tricky – it may be an approximation
For solutions of solids in liquids it is the mass of liquid which is taken into account, the mass of solid tends to be ignored (unless the specific heat of the solution is quoted, in which case it is built in)
E.g. 10g of sodium chloride added to 100g of water – 100g used as “m”
But for two liquids: 25g of sulphuric acid added to 25g of water - 50g
used as m
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Signs
If temp of mixture goes up sign for ΔE is
Negative Reaction is …….thermic exo Decrease in temp Positive ΔE endothermic
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Examples involving solutions
3.00g of CaO was added to 50cm3 of water and the temperature rose by 150C.
Calculate the (i) energy change (ii) the energy change if 1 mole of CaO had been used
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3.00g of CaO was added to 50.0g of water and the temperature rose by 150C.
ΔE = mass x specific heat x temp change
= 50.0 x 4.18 x 15 = 3135j Number of moles of CaO = 3/56 =
0.0536 Energy change per mole of CaO =3135/0.0536 = 58489 j mol-1
=58.5 kj mol-1
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ΔE vs ΔH
ΔH is an energy change but measured at constant pressure
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Consolidation
Sheet “energy change from temperature
change”
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Hess’s Law – enthalpy change accompanying reaction is independent of route depends only on initial and final states
2 (direct) = 3+1 (indirect)1=3=
A B
C
x
yz
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X= Z= Y=
A B
C
X
YZ
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What can you deduce?
A B
C
E1
E2E3
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A B
C
H1
H2
H3
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Hess’s Law Triangle worksheet
Answers -325 -200 +230 -600 -495
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Corner stone definitions -background
STANDARD CONDITIONS: CARD 100kPa (1 atmosphere)
pressure temperature : 298 K . include state symbols.
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Corner stone definitions
Standard Enthalpy of Combustion
H c. (Memory card) The enthalpy change when one
mole of a substance is completely burned in oxygen at 298K and 1 atmosphere (102 kPa) pressure.
Enthalpy of combustion of methane CH4(g) + 2O2(g) CO2(g) + 2H2O(l)
Hc = -890.5 kJmol-1
See notes page 4 Q’s 1&2
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Corner stone definitions
Standard Enthalpy of Formation Hf.(Memory card)
The enthalpy change when one mole of a compound is formed from its elements in their standard states (i.e. the normal or most stable form) at 298K and 1 atmosphere (102 kPa) pressure.
Enthalpy of formation of ammonia 0.5 N2(g) + 1.5 H2(g) NH3(g) Hf = -46.0.kJmol-1 See page 5 Q1 (Q2 if completed)
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Calculate the enthalpy of formation of methane ΔHθ
comb(CH4)= -882 kj mol-1 ΔHθ
f(CO2)= -394 kj mol-1 ΔHθ
f(H2O)= -286 kj mol-1 Ans = -84 kj mol-1
CH4(g) + 2O2(g) C O2(g) + 2H2O(l)ΔHθ
comb(CH4)
C(s) + 2H2 + 2O2
ΔHθf(CO2)+ ΔHθ
f(H2O)x2ΔHθ
f(CH4) ΔHΔH1
ΔH2
ΔH = ΔH1 + ΔH2
ΔH - ΔH2 = ΔH1
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See Hess’s Law calculations 1
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Calculate the enthalpy of combustion of methane ΔHθ
f(CH4)= -84 kj mol-1 ΔHθ
f(CO2)= -394 kj mol-1 ΔHθ
f(H2O)= -286 kj mol-1 Ans = -882 kj mol-1
CH4(g) + 2O2(g) C O2(g) + 2H2O(l)ΔHθ
comb(CH4)
C(s) + 2H2 + 2O2
ΔHθf(CO2)+ ΔHθ
f(H2O)x2ΔHθ
f(CH4) ΔHΔH1
ΔH2
ΔH = ΔH1 + ΔH2
ΔH - ΔH1 = ΔH2
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See Hess’s Law calculations 2
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Calculate the enthalpy of reaction
Reactants ProductsΔHθ
reaction
Elements in normal state
Add ΔHθf (all products)
Add ΔHθf(all
reactants) ΔH
ΔH1
ΔH2
ΔH = ΔH1 + ΔH2
ΔH - ΔH1 = ΔH2
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Example of enthalpy of reaction calculation
For the reaction SiCl4 + 2H2O SiO2 + 4HCl Calculate the enthalpy of reaction
given: ΔHθ
f(H2O)= -286 kj mol-1
ΔHθf(SiCl4)= -640.2 kj mol-1
ΔHθf(SiO2)= -859.4 kj mol-1
ΔHθf(HCl)= -92.3 kj mol-1
Ans = -16.6 kj mol-1
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See Hess’s Law calcs 3 Q’s 1&2
Ans Q1 = -227 kj mol-1
Ans Q2 = +17 kj mol-1
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Further questions – answer by means of a triangle
1. Cyclohexene reacts with hydrogen to form cyclohexane as follows
C6H10 + H2 C6H12 Calculate the enthalpy change of the reaction given
that the enthalpies of formation of cyclohexene and cyclohexane are
-36kJ mol-1 and -156kJ mol-1 respectively.
2. The standard enthalpies of combustion of ethane, carbon and hydrogen are -1411, -393 and -286 kJmol-1 respectively. Calculate the standard enthalpy of formation of ethane.
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Enthalpy of reaction from enthalpy of combustion (all components must burn)Calculate the enthalpy of hydrogenation (ΔHθ
reaction) of ethane
C2H4(g) + 2H2(g) C2H6
ΔHθreaction
3H2O + 2CO2
ΔHθcomb(C2H6ΔHθ
comb(C2H4) + ΔHθ
comb(H2) x2ΔH2
ΔH
ΔH1
ΔH = ΔH1 + ΔH2
ΔH - ΔH2 = ΔH1
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See Hess’s Law calcs 3 Q’s 3&4