atoms, molecules, and stoichiometry recap of lecture 5
TRANSCRIPT
![Page 1: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/1.jpg)
Atoms, Molecules, and Stoichiometry
Recapof Lecture 5
![Page 2: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/2.jpg)
YIS
HU
N J
C
Recap
Percentage Yield =Actual Yield
Theoretical YieldX 100%
Combustion Analysis
Values given in terms of mass
Values given in terms of volume
Find the mass of each element
Find mole ratio and hence empirical formula
Make use of Avogadro’s law to compare volumes
![Page 3: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/3.jpg)
YIS
HU
N J
C
Example 1:
Complete combustion of an unknown organic compound of mass 1.000g containing only carbon, hydrogen, and oxygen, gave 1.500g of carbon dioxide and 0.405g of water. What is the empirical formula of the organic compound?
Using mass proportion:
Mass of C in 1.500g CO2 =MC
MCO2 x mCO2
12.0
44.0 x 1.500= = 0.409 g
Combustion Analysis
Mass of C
Mass of CO2
MC
MCO2
=
![Page 4: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/4.jpg)
YIS
HU
N J
C
Example 1:
Complete combustion of an unknown organic compound of mass 1.000g containing only carbon, hydrogen, and oxygen, gave 1.500g of carbon dioxide and 0.405g of water. What is the empirical formula of the organic compound?
Using mass proportion:
Mass of C in 1.500g CO2 =MC
MCO2 x mCO2
12.0
44.0 x 1.500= = 0.409 g
Combustion Analysis
Mass of C Mass of CO2
MC
MCO2
= x
![Page 5: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/5.jpg)
YIS
HU
N J
C
Example 1:
Complete combustion of an unknown organic compound of mass 1.000g containing only carbon, hydrogen, and oxygen, gave 1.500g of carbon dioxide and 0.405g of water. What is the empirical formula of the organic compound?
Combustion Analysis
Mass of H in 0.405g H2O =2 x MH
MH2O
x mH2O
= 2 x 1.0
18.0x 0.405 = 0.045 g
Mass of oxygen in the compound = 1.000 – 0.409 – 0.045
= 0.546 g
![Page 6: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/6.jpg)
YIS
HU
N J
C
3 4 3
C H O
0.409 0.045 0.546Mass ratio
0.40912.0 0.0451.0 0.54616.0
= 0.0341 = 0.045 = 0.0341
Mole ratio
0.03410.0341 0.0450.0341 0.03410.0341
= 1 = 1.320 = 1
Simplest whole number ratio
Compound’s empirical formula is C3H4O3
Combustion Analysis
![Page 7: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/7.jpg)
YIS
HU
N J
C
Avogadro’s Law: no of moles of gas volume of gas
Provided that temperature and pressure are kept constant
This means that, Mole ratio is equivalent to the Volume ratio
10 (y/2) cm310x cm310(x + y/4) cm310 cm3
y/2 cm3x cm3(x + y/4) cm31 cm3
y/2 molx mol(x + y/4) mol1 mol
H2OCO2O2CXHY
Mole ratio
Volume ratio
CXHY + (x + y/4) O2 x CO2 + y/2 H2O
Combustion Analysis
![Page 8: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/8.jpg)
YIS
HU
N J
C
Example 1
When 10 cm3 of a gaseous hydrocarbon was completely burnt in excess oxygen, 20 cm3 of carbon dioxide and 30 cm3 of steam was produced (all gas volumes measured under the same conditions).
Calculate the molecular formula of the hydrocarbon.
CXHY + (x + y/4) O2 x CO2 + y/2 H2O
By Avogadro’s law,
nCO2
nCxHy
VCO2
VCxHy =
20
10= x = 2
Combustion Analysis
x
1=
![Page 9: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/9.jpg)
YIS
HU
N J
C
Example 1
When 10 cm3 of a gaseous hydrocarbon was completely burnt in excess oxygen, 20 cm3 of carbon dioxide and 30 cm3 of steam was produced (all gas volumes measured under the same conditions).
Calculate the molecular formula of the hydrocarbon.
CXHY + (x + y/4) O2 x CO2 + y/2 H2O
By Avogadro’s law,
nH2O
nCxHy
VH2O
VCxHy =
y/2
1= y = 6
Molecular formula is C2H6
Combustion Analysis
30
10=
![Page 10: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/10.jpg)
YIS
HU
N J
C
Points to note:
1. The volume of CO2 may be given as a decrease in volume when the residual gases are passed through NaOH or other alkali
2. The volume of H2O may be given as
a. Decrease in volume when the residual gases are passed through anhydrous CaCl2 or conc. H2SO4
b. Decrease in volume when the residual gases are cooled to below 100oC at atm pressure
3. Oxygen is usually added in excess and not in stoichiometric amount, so there will be excess oxygen as residual gas
4. Contraction = volume of reactants – volume of products
5. Expansion = volume of products – volume of reactants
19Combustion Analysis
![Page 11: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/11.jpg)
YIS
HU
N J
C
Example 2
In an experiment, 10.0 cm3 of a gaseous hydrocarbon was exploded with an excess of oxygen, and a contraction of 35.0 cm3 occurred. The resultant volume was passed through aqueous sodium hydroxide, and the volume was reduced by another 40.0 cm3. Assuming that all volumes were measured at room temperature and pressure, determine the empirical formula of the hydrocarbon.
CXHY + (x + y/4) O2 x CO2 + y/2 H2Oliquid state
![Page 12: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/12.jpg)
YIS
HU
N J
C
Example 2
In an experiment, 10.0 cm3 of a gaseous hydrocarbon was exploded with an excess of oxygen, and a contraction of 35.0 cm3 occurred. The resultant volume was passed through aqueous sodium hydroxide, and the volume was reduced by another 40.0 cm3. Assuming that all volumes were measured at room temperature and pressure, determine the empirical formula of the hydrocarbon.
Volume of CO2 gas = 40.0 cm3 [absorbed by aq NaOH]
By Avogadro’s Law,nCO2
nCxHy
VCO2
VCxHy =
x
1
40
10= x = 4
CXHY + (x + y/4) O2 x CO2 + y/2 H2Oliquid state
![Page 13: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/13.jpg)
YIS
HU
N J
C
Example 2
In an experiment, 10.0 cm3 of a gaseous hydrocarbon was exploded with an excess of oxygen, and a contraction of 35.0 cm3 occurred. The resultant volume was passed through aqueous sodium hydroxide, and the volume was reduced by another 40.0 cm3. Assuming that all volumes were measured at room temperature and pressure, determine the empirical formula of the hydrocarbon.
CXHY + (x + y/4) O2 x CO2 + y/2 H2O
y/2 molx mol(x + y/4) mol1 mol
0 cm310x cm310(x + y/4) cm310 cm3
H2OCO2O2CXHY
Mole ratio
Volume ratio
![Page 14: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/14.jpg)
YIS
HU
N J
C
Example 2
In an experiment, 10.0 cm3 of a gaseous hydrocarbon was exploded with an excess of oxygen, and a contraction of 35.0 cm3 occurred. The resultant volume was passed through aqueous sodium hydroxide, and the volume was reduced by another 40.0 cm3. Assuming that all volumes were measured at room temperature and pressure, determine the empirical formula of the hydrocarbon.
CXHY + (x + y/4) O2 x CO2 + y/2 H2O
y/2 molx mol(x + y/4) mol1 mol
0 cm340 cm310(x + y/4) cm310 cm3
H2OCO2O2CXHY
Mole ratio
Volume ratio
![Page 15: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/15.jpg)
YIS
HU
N J
C
Example 2
In an experiment, 10.0 cm3 of a gaseous hydrocarbon was exploded with an excess of oxygen, and a contraction of 35.0 cm3 occurred. The resultant volume was passed through aqueous sodium hydroxide, and the volume was reduced by another 40.0 cm3. Assuming that all volumes were measured at room temperature and pressure, determine the empirical formula of the hydrocarbon.
35.0 = Initial volume of gases – final volume of gases
35.0 = { 10 + 10( x + y/4 ) + excess O2 } – { 40 + excess O2 }
65 = 10(x+y/4)
Since x = 4, solving y = 10
Hence the empirical formula of the hydrocarbon is C4H10
CXHY + (x + y/4) O2 x CO2 + y/2 H2O
![Page 16: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/16.jpg)
YIS
HU
N J
C
Example 3
In an experiment, 10.0 cm3 of a gaseous hydrocarbon was exploded with 100.0 cm3 of oxygen. The volume of the resulting gas mixture was 80.0 cm3, which decreased to 40.0 cm3 when passed through aqueous sodium hydroxide. All volumes were measured at room temperature and pressure. What is the formula of the hydrocarbon?
Volume of CO2 produced = 80.0 – 40.0 = 40.0 cm3
CXHY + (x + y/4) O2 x CO2 + y/2 H2O
nCO2
nCxHy
VCO2
VCxHy =
x
1
40
10= x = 4
Volume of resulting gas mixture = 80.0 cm3
= volume of CO2 + volume of unreacted O2
Hence volume of unreacted O2 = 80.0 – 40.0 = 40.0 cm3
20
![Page 17: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/17.jpg)
YIS
HU
N J
C
Example 3
In an experiment, 10.0 cm3 of a gaseous hydrocarbon was exploded with 100.0 cm3 of oxygen. The volume of the resulting gas mixture was 80.0 cm3, which decreased to 40.0 cm3 when passed through aqueous sodium hydroxide. All volumes were measured at room temperature and pressure. What is the formula of the hydrocarbon?
CXHY + (x + y/4) O2 x CO2 + y/2 H2O
Therefore volume of O2 used up in the reaction
= 100.0 – 40.0 = 60.0 cm3
nO2
nCxHy
VO2
VCxHy =
x + y/4
1
60
10=
y = 8
The formula for the hydrocarbon is C4H8
![Page 18: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/18.jpg)
YIS
HU
N J
C
What have I learnt? Determine the formula of a hydrocarbon given
the combustion analysis data In terms of mass In terms of volume
![Page 19: Atoms, Molecules, and Stoichiometry Recap of Lecture 5](https://reader037.vdocuments.us/reader037/viewer/2022100319/5514d4ca55034640138b627f/html5/thumbnails/19.jpg)
End of Lecture 6(End of part I)
Have a prosperous and happy lunar new year
(and do take care of your health!)