309 sp 11-4 heat of fusion
DESCRIPTION
309 SP 11-4 HEAT OF FUSION. HOW MANY GRAMS OF ICE AT 0°C AND 101.3KJ COULD BE MELTED BY THE ADDITION OF 2.25 KJ OF HEAT ?. H FUS. HEAT OF FUSION = 6.01 KJ / 1 MOLE. =. 1 MOLE OF WATER ( H 2 0) IS 1g + 1g + 16 g = 18g. 2.25 kj 1. 1 MOLE 6.01 kj. .37 MOLES. 18 g 1 MOLE. x. =. - PowerPoint PPT PresentationTRANSCRIPT
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309 SP 11-4 HEAT OF FUSION• HOW MANY GRAMS OF ICE AT 0°C AND 101.3KJ
COULD BE MELTED BY THE ADDITION OF 2.25 KJ OF HEAT ?
HEAT OF FUSION = 6.01 KJ / 1 MOLE HFUS
2.25 kj1 =
1 MOLE6.01 kj
.37 MOLES 18 g1 MOLE = 6.74 g
1 MOLE OF WATER ( H20) IS 1g + 1g + 16 g = 18g
=
IT TAKE 6.01 KJ ( 6010) SMALL MATCHES TO MELT 18 g
x x
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309 SP 11-5 H of VAPORIZATON• HOW MUCH HEAT IN KJ, IS ABSORBED WHEN
24.8g OF WATER AT 100ºC IS CONVERTED TO STEAM AT 100 ºC ?
H2O (L) + 40.7 KJ ----> H20 (g)
IT TAKE 40.7 KJ TO CONVERT 1 MOLE OF LIQUID
WATER AT 100 ºC TO STEAM AT 100 ºC .
24.8 g 1
1 MOLE 18 g
1.38 MOLES= 40.7 kj 1 MOLE
= 56.1 KJ
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SP 11-6 HEAT OF SOLUTION• HOW MUCH HEAT ( IN kJ) IS RELEASED WHEN
2.5 MOLES OF Noah IS DISSOLVED IN WATER ?
HEAT OF SOLUTION IS - 445.1 kj / MOLE
H Soln = - 445 .1 kj / MOLE
NaOH (s) ----> Na+1 (aq) + OH - (aq)
WHEN 1 MOLE IS DISSOLVED IN WATER, 445 kj IS RELEASED
2.5 MOLES 1
- 445 kj 1 MOLE
= - 1113 kj
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SP 11-6 HEAT OF SOLUTION
HOW MUCH HEAT INKJ IS RELEASED WHEN 2.5 MOLES OF NaOH IS DISSOLVED IN WATER
NaOH (s) -------> Na + + OH - + 445 KJ/ MOLE
2.5 MOLES 1
445 KJ1 MOLE = -113 KJ
HEAT CHANGE IS - 445 KJ BECAUSE THIS IS EXOTHERMIC…. HEAT IS LOST TO THE WATER
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START OF 11.1
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TERMS FOR TEST 11
• 1. THERMOCHEMICAL EQUATION• 2 JOULE• 3 ENDOTHERMIC PROCESS• 4 CHEMICAL POTENTIAL ENERGY• 5 HEAT OF COMBUSTION• 6 CALORIMETRY• 7 THERMOCHEMISTRY• 8 MOLAR HEAT OF FUSION
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SAMPLE PROBLEMS FOR TEST 11• 11-1 FINDING SPECIFIC HEAT
• 11-2 CALCULATING HEAT
• 11-3 THERMOCHEMICAL REACTIONS
• 11-4 HEAT OF FUSION
• 11-5 SKIP
• 11-6 HEAT OF SOLUTION
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312 SP11-2 MOLAR HEAT OF SOLUTION
IS THE AMOUNT OF HEAT CREATED BY DISSOLVING 1 MOLE OF A SUBSTANCE IN WATER.
1000g
22º
52º
HEAT OF SOLUTION= g OF WATER x SH x TEMP. CHANGE
1000g
4.18 30º
= 125. 4 kj
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CHAPTER 11: THERMOCHEMISTRY
HEAT AND CHEMICAL CHANGE
•11.1 THE FLOW OF ENERGY and HEAT
•11.2 MEASURING AND EXPRESSING HEAT CHANGES •11.3 HEAT IN CHANGES OF STATE
•11.4 CALCULATING HEAT CHANGES
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293 TERM for 11.l• 1.THERMOCHEMISTRY
• 2,ENERGY
• 3.CHEMICAL POTENTIAL
ENERGY
• 4.HEAT
• 5.SYSTEM
• 6. SURROUNDING
• 7. UNIVERSE
• 8. LAW OF
CONSERVATION OF
ENERGY
• 9. ENDOTHERMIC
• 10. EXOTHERMIC
11. CALORIE•12. JOULE•13. HEAT CAPACITY•14. SPECIFIC HEAT CAPACITY•15. SPECIFIC HEAT
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294 EXOEXOTHERMIC PROCESS
EXOTHERMIC PROCESS•THE WATER (SURROUNDINGS) GET WARMER•HEAT (CALORIES) MOVE INTO THE WATER•THE SYSTEM ( COPPER) GETS COLDER
HEAT IN WATER = 2HEAT IN COPPER = 2TOTAL HEAT = 4
HEAT IN WATER = 3HEAT IN COPPER = 1TOTAL HEAT = 4
100 -c
10 -c
50-c50 -c
HOTCOPPERPLACED
INCOLD
WATER
HEATaka
CALORIE
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294 EXOEXOTHERMIC PROCESS
EXOTHERMIC PROCESS•THE WATER (SURROUNDINGS) GET WARMER•HEAT (CALORIES) MOVE INTO THE WATER•THE SYSTEM ( COPPER) GETS COLDER
HEAT IN WATER = 2HEAT IN COPPER = 2TOTAL HEAT = 4
HEAT IN WATER = 3HEAT IN COPPER = 1TOTAL HEAT = 4
100 -c
10 -c
50-c50 -c
HOTCOPPERPLACED
INCOLD
WATER
HEATaka
CALORIE
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299 SP 11-1 SPECIFIC HEAT
THE TEMPERATURE OF A PIECE OF Cu WITH A MASS OF95.4 g INCREASES FROM 25 -C TO 48 -C WHEN THE METALABSORBS 849 J OF HEAT. WHAT IS THE SPECIFIC HEAT ?
FORMULA
x
SPECIFIC HEAT =HEAT in J or C
MASS TEMP CHANGE
849 J
95.4 g x 23 - C
849j
2194 gxC
.387 j1g x -C
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294 EXOTHERMIC PROCESS
EXOTHERMIC PROCESS•THE WATER (SURROUNDINGS) GET WARMER•HEAT (CALORIES) MOVE INTO THE WATER•THE SYSTEM ( COPPER) GETS COLDER
HEAT IN WATER = 2HEAT IN COPPER = 2TOTAL HEAT = 4
HEAT IN WATER = 3HEAT IN COPPER = 1TOTAL HEAT = 4
100 -c
10 -c
50-c50 -c
HOTCOPPERPLACED
INCOLD
WATER
HEATaka
CALORIE
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294 ENDOENDOTHERMIC PROCESS
ENDOTHERMIC PROCESS•THE WATER (SURROUNDINGS) GET COLDER•HEAT (CALORIES) MOVE FROM THE WATER•THE SYSTEM ( COPPER) GET WARMER
HEAT IN WATER = 2HEAT IN COPPER = 2TOTAL HEAT = 4
HEAT IN WATER = 1HEAT IN COPPER = 3TOTAL HEAT = 4
10 -c
100 -c
50-c50 -c
OPPOSITE OF EXOTHERMIC PROCESS
HEAT FROMTHE
SURROUNDINGSIS LOST TO THE
SYSTEM
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293 TERMS 1-51. THE STUDY OF HEAT CHANGES IN CHEMISTRY.
2. THE CAPACITY TO DO WORK OR SUPPLY HEAT
3. ENERGY STORES IN CHEMICAL SUBSTANCES
THERMOCHEMISTY
ENERGY
CHEMICAL POTENTIAL ENERGY
4. THE ENERGY TRANSFERED FROM ONE OBJECT TO ANOTHER BECAUSE OF TEMPERATURE DIFFERENCES.
5. PART OF THE UNIVERSE WE FOCUS ON
HEAT
SYSTEM
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293 TERMS 6-101. IMMEDIATE VICINITY OF SYSTEM
2. SYSTEM + SURROUNDING
3. ENERGY IS NEIHER CREATED OR DESTROYED
SURROUNDINGS
UNIVERSE
LAW OF CONV. OF ENERGY
4. ABSORBS HEAT FROM THE SURROUNDINNGS
5. RELEASES HEAT TO ITS SURROUNDINGS
ENDOTHERMIC
EXOTHERMIC
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293 TERMS 11-151. HEAT THAT RAISES 1 g OF WATER 1 -C
2. SI UNIT OF HEAT …… ALSO CALORIE = 4.18 OF THESE
3. NEEDED TO RAISE THE TEMP. OF AN OBECT 1 DEGREE.
CALORIE
JOULE
HEAT CAPACITY
4. RAISES 1 g OF ANY SUBSTANCES 1 DEGREE.
5.
SPECIFIC HEAT CAPACITY
EXOTHERMIC
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295 CALORIE vs JOULEUNITS FOR HEAT
1 CALORIELARGE MATCH EQUALS
4,18 JOULES4 SMALL MATCHES
1 CALORIE or 4.18 JOULES IS THE AMOUNT OF HEAT NEEDED TO RAISE THE TEMPERATURE OF 1 g ( 1 mL) OF WATER 1 DEGREE.
1 GRAM OF WATER
56 DEGREESTO
57 DEGREES
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295: SPECIFIC HEATWATER ALCOHOL IRON
1 CALORIE O.58 CALORIES 0.11 CALORIES
1 GRAM HEATED 1 DEGREE HOTTER.
SPECIFIC HEAT IS THE AMOUNT OF HEAT ( CAL OR J)NEEDED TO RAISE 1 g OF ANY SUBSTANCE 1 DEGREE
IRON ISVERY EASY
TO HEAT
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297UNITS FOR SPECIFIC HEAT
• HEAT CAN BE EXPRESSED AS:– CALORIES– JOULES
SPECIFIC HEAT =HEAT ( C or J)
GRAMS x TEMP. CHANGE
JOULES
GRAMS x -C
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296 HEAT CAPACITY• THE HEAT CAPACITY IS THE AMOUNT OF HEAT
NEEDED TO INCREASE THE TEMP. OF AN OBJECT ( OF ANY SIZE ) ONE DEGREE.
34.6 g34.6 g
1 g1 g
HEAT CAPACITY USED FORANY MASS.
SPECIFIC HEAT USED FORA MASS OF 1 GRAM
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CALORIES vs kCAL vs JOULES
1 CALORIE = 4.18 J
1KCAL = 1000 CALORIES
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299 SP 11-1 SPECIFIC HEAT
THE TEMPERATURE OF A PIECE OF Cu WITH A MASS OF40.0 g INCREASES FROM 25 -C TO 50 -C WHEN THE METALABSORBS 400 J OF HEAT. WHAT IS THE SPECIFIC HEAT ?
FORMULA
x
SPECIFIC HEAT =HEAT in J or C
MASS TEMP CHANGE
400 J
40 g x 25 - C
400
1000 gxC
.40 J1g x -C
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299 PP 1 FIND S.H.
WHEN 435 J OF HEAT IS ADDED TO 3.4 g OF OLIVE OIL AT 21 -C, THE TEMPERATURE INCREASES TO 85 -C. WHAT IS THE SPECIFIC HEAT?
SPECIFIC HEAT = HEAT (J)MASS x TEMP
435 J
3.4 g x 64 -C
435 J
218
2.0 J / g x -C= =
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299 PP 2 FIND S.H.
A PIECE OF STEEL WEIGHING 1.55 g ABSORBS 141 J OF HEAT WHEN ITS TEMP.
INCREASES 178 -C. FIND THE S.H.IN J. ?
SPECIFIC HEAT = HEAT (J)MASS x TEMP
141 J
1.55 g x 178 -C
141 J
276
.51 J / g x -C= =
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START 11.2
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300 CALORIMETRYUSING A SODA CAN
• CALORIMETRY IS THE MEASUREMENT OF HEAT CHANGE IN CHEMICAL REACTIONS
• CALORIMETER IS DEVICE USED TO MEASURE HEAT CHANGE ( SODA CAN)
HOW MUCH HEAT, IS NEEDED TO RAISE100g OF WATER 10 DEGREES ? ( CAL)
CALORIES = MASS x SH x TEMP. CHANGE
KILOCALORIES =
JOULES =
g CAL -C=
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301 HEAT SIGNS• EXOTHERMIC REACTION
– H IS NEGATIVE– THE WATER GETS HOTTER
• ENDOTHERMIC REACTION– H IS POSITIVE– THE WATER GETS COLDER
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312 MOLAR HEAT OF SOLUTION
IS THE AMOUNT OF HEAT CREATED BY DISSOLVING 1 MOLE OF A SUBSTANCE IN WATER.
1000g
22º
52º
HEAT OF SOLUTION= g OF WATER x SH x TEMP. CHANGE
1000g
4.18 30º
= 125. 4 kj
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LIKE SP 11-6 HEAT OF SOLUTION
HOW MUCH HEAT ( IN kJ) IS RELEASED WHEN
0.5 MOLES OF NaOH IS DISSOLVED IN WATER ?
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LIKE SP 11-6 HEAT OF SOLUTION
HOW MUCH HEAT ( IN kJ) IS RELEASED WHEN
0.5 MOLES OF NaOH IS DISSOLVED IN WATER ?
HEAT OF SOLUTION IS - 445.1 kj / MOLE
H Soln = - 445 .1 kj / MOLE
NaOH (s) ----> Na+1 (aq) + OH - (aq)
WHEN 1 MOLE IS DISSOLVED IN WATER, 445 kj IS RELEASED
0.5 MOLES 1
- 445 kj 1 MOLE
= - 222.5 kj
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304 ENDO VS EXO LAB
NaOH
1 MASS OF H2O 21°2 START TEMP ____3 END TEMP ____4 CHANGE ____5 SH IN JOULES 4.18
6 WATER H or C
7 TYPE ENDO or EXO
8 JOULES _____
NaNO3
1 MASS OF H2O ____2 START TEMP ____3 END TEMP ____4 CHANGE ____5 SH IN JOULES 4.18
6 WATER H or C
7 TYPE ENDO or EXO
8 JOULES _____
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304 ENDO VS EXO LAB
NaOH NaNO31 10 g2345678
12 21º3 17º45678
10 g
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301 HEAT and ENTHALPY• ENTHALPY, IN THE CLASS WILL BE THE SAME
AS HEAT CONTENT.
HEAT = MASS X SH X TEMP. CHANGE
MASS OF WATER
SH OF WATER
CHANGE IN TEMP
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302 SP 11-2 HCl + NaOH25 ml OF HCl IS MIXED WITH 25 OF NaOH IN A FOAM CUP.THE STARTING TEMP. IS 25 -C AND THE ENDING TEMP.IS 32 -C. HOW MUCH HEAT IS RELEASED IN JOULES ?
HEAT = MASS x SH x TEMP.
HEAT = 50 g x 4.18 7x 1463 j OR 1.5 kj
25 ml25 ml
50 GRAMS
+
BECAUSE THEDENSITY = 1 ….
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302 PP 11 HCl + NaOH50 mL OF HCl IS MIXED WITH 50 OF NaOH IN A FOAM CUP.THE STARTING TEMP. IS 22.5 -C AND THE ENDING TEMP.IS 26 -C. HOW MUCH HEAT IS RELEASED IN KJ ?
HEAT = MASS x SH x TEMP.
HEAT = 100 g x 4.18 3.5x 1463 j OR 1.5 kj
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302 SP 11-2 HCl + NaOH • LIKE TEST QUESTION 28
25 mL of 0.025 M HCl IS ADDED TO 25 mL OF 0.25 M NaOHIS A FOAM CUP. AT THE START ALL SOLUTIONS ARE AT25 -C. DURING THE REACTION THE HIGHEST TEMP. IS32 . ASSUMING THE DENSITIES ARE 1.0 g ./ ml, HOW MUCHHEAT IS RELEASED IIN KJ .
HEAT = MASS x SPECIFIC HEAT x TEMP. CHANGE
HEAT = 50 g x 4.18 x 7
HEAT = 1463 J OR 1.5 KJ
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303 THERMOCHEMICALEQUATIONS
• THERMOCHEMICAL EQUATION INCLUDES THE HEAT CHANGE.
• HEAT OF REACTION IS THE HEAT CHANGE FOR A REACTION EXACTLY AS IT IS WRITTEN
CaO + H2O ----> Ca(OH)2 + 65.2 kj
1 MOLE OF CaO ADDED TO WATER PRODUCES65.2 kj OF HEAT.
A NEW PART TO A CHEMICAL EQUATIONJOULES OR CALORIES
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LAB: COLDER WATER• THE FIRST REACTION WAS ENDOTHERMIC.
• THE WATER GOT COLDER
• HEAT OF REACTION IS POSTIVE
• THE SYSTEM GAINED HEAT /SURROUNDING LOST HEAT
• IN THE EQUATION– HEAT GOES ON THE LEFT
BLUE SALT + 400 kj ----> COLDER WATER
= + 400 kjH
BECAUSE THE SYSTEM( SALT) GAINED HEAT
SYSTEMCALORIE SURROUNDING
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LAB: WARMER WATER• THE SECOND REACTION WAS EXOTHERMIC.
• THE WATER GOT WARMER
• HEAT OF REACTION IS NEGATIVE
• THE SYSTEM GAINED HEAT /SURROUNDING LOST HEAT
• IN THE EQUATION– HEAT GOES ON THE RIGHT
BLUE SALT ----> WARMER WATER+ 400 kj
= - 400 kjH
BECAUSE THE SYSTEM( SALT)LOST HEAT
SYSTEMCALORIE SURROUNDING
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304 LIKE TEST QUESTION 20
• GIVEN THIS EQUATION, HOW MUCH HEAT IS PRODUCED (kJ) WHEN 320 g OF O2 REACTS ?
C3H8 + 5 O2 --> 3 CO2 + 4 H20 + 2220 kj
320 g 1 MOLE
32 g10 MOLES1
=
CHANGE g TO MOLES
O 2 = 16g + 16g = 32 g
320 g 1 MOLE
32 g1=
CHANGE g TO MOLES
O 2 = 16g + 16g = 32 g
10 M
1
2220 kj
5 MOLES= 4440 kj
FIND HEAT IN kj
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304 SP 11-3 H of REACTION
• USING THE EQUATION BELOW, CALCULATE THE KJ OF HEAT NEEDED TO DECOMPOSE 2.24 MOLES OF NaHCO3 (s) ?
2 NaHCO3 + 129 kJ ---> Na2CO3 + H2O + CO 2
129 kJ
2 MOLE
2.24 MOLES1 =
144 kj
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304 SP 11-3 H of REACTION
• USING THE EQUATION BELOW, CALCULATE THE KJ OF HEAT NEEDED TO DECOMPOSE 2.24 MOLES OF NaHCO3 (s) ?
2 NaHCO3 + 129 kJ ---> Na2CO3 + H2O + CO2
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304 PP 13: HEAT OF REACTION• WHEN CS2 IS FORMED FROM ITS ELEMENTS,
HEAT IS ABSORBED. CALCULATE THE AMOUNT OF HEAT (KJ) ABSORBED WHEN 5.66 g OF C2S IS
FOMMED ?
1 C + 2 S -----> CS2 H= 89.3kj
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305 HEAT OF COMBUSTION
• THE HEAT OF COMBUSTION IS THE HEAT OF REACTION FOR THE COMPLETE BURNING F 1 MOLES OF A SUBSTANCE
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305 HEAT OF COMBUSTION• THE HEAT OF COMBUSTION IS THE HEAT OF
REACTION FOR THE COMPLETE BURNING OF 1 MOLES OF A SUBSTANCE
CH4 + O2 ----> CO2 + H2O + 890 kJ
CH4 + O2 ----> CO2 + H2O H = - 890 kj
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304 SP 11-3 HEAT of REACTIONUSING THE EQUATION FOR THIS REACTION, CALCULATETHE kj OF HEAT REQUIRED TO DECOMPOSE 2.24 MOLESOF NaHCO3 (s).
•2 NaHCO3 + 129 kj ---> NaCO3 + H20+ CO3
129 kj
2 MOLES
2,.24 MOLES
1
= ______ kj
144 kj
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START 11.3
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309 PP 20 HEAT OF FUSION• HOW MANY GRAMS OF ICE AT 0 -C AND 101.3 kPa
COULD BE MELTED BY THE ADDITION OF 0.4 kj OF HEAT ?
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309 PP 20 HEAT OF FUSION• HOW MANY GRAMS OF ICE AT 0 -C AND 101.3KJ
COULD BE MELTED BY THE ADDITION OF 0.4 kj OF HEAT ?
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309 PP 20 HEAT OF FUSION• HOW MANY GRAMS OF ICE AT 0 -C AND 101.3KJ
COULD BE MELTED BY THE ADDITION OF 0.4 kj OF HEAT ?
HEAT OF FUSION = 6.01 KJ / 1 MOLE HFUS
.4 kj1 =1 MOLE
6.01 kj..067 MOLES 18 g
1 MOLE = 1.2 g
1 MOLE OF WATER ( H20) IS 1g + 1g + 16 g = 18g
=
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310 PHASE DIAGRAMSOLID WARMING
SOLID MELTING
LIQUID WARMING UP
LIQUID BOILING
GAS WARMING UP
HEAT SUPPLIED
TE
MP
ER
AT
UE
HEAT OF FUSION
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310 MOLAR HEAT OF FUSIONIT TAKES 6.01 kj OF HEAT TO MELT 1 MOLE (18g) OF WATER AT A CONSTANT TEMP.
18 g1MOLE
Hfus = 6.01 kj / MOLE
ICESTARTS TO MELT
ALL THEICE HASMELTED
HEAT SUPPLIED
TE
MP
ER
AT
UR
E
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310 MOLAR HEAT SOLIDIFICATON
1 MOLE (18g) OF LIQUID WATER GIVES OFF6.01 kj OF HEAT WHEN IT SOLIDIFIES
18 g1MOLE
18 g1 MOLE
HSOLID = - 6.01 kj / MOLE
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307 HEATS OF FUSION
MOLAR HEAT OF FUSION IS THE AMOUNT OF HEAT NEEDED TO CHANGE 1 MOLE OF A SUBSTANCE FROM A SOLID TO A LIQUID AT A CONSTANT TEMPERATURE
H fus = + 6.01 kj
HEAT OF FUSION
6.01 kj ADDED PER MOLE
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310 HEAT OF VAPORIZTIONIT TAKES 40.7 kj OF HEAT TO CHANGE 1 MOLES OF LIQUID WATER TO STEAMAT A CONSTANT TEMPERATURE.
LIQUID STEAM
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308 LAB : HEAT OF FUSION• THE AMOUNT OF HEAT NEEDED TO MELT ONE
MOLE OF A SUBSTANCE• HEAT GAINED BY WATER = HEAT LOST BY ICE
1. MASS OF ICE 1____2. MASS OF 1MOLE (H2O) 2 18g3. MOLES OF ICE 3___4. MASS OF WATER 4 100 g5. STARTING TEMP. 5 21°6. ENDING TEMP 6_____7. CHANGE IN TEMP. 7_____8. SH OF WATER 8_____9. HEAT LOST BY WATER 9_____10. HEAT GAINED BY ICE 10 ____
CALCULATIONS.HEAT OF FUSION
10 KJ OF HEAT
3 MOLES OF ICE
DATA
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314 HESS’S LAW• IF YOU ADD 2 OR THERMO EQUATIONS:
– THAT GIVE YOU A FINAL EQUATION• YOU CAN ADD THE HEATS OF REATION• TO GIVE YOU A FINAL HEAT OF REATION
1) C + O2 ----> CO2
2) C