CHEM 103
MODULE 2 EXAM 2022
Question 1 Click this link to access the Periodic Table. This may be helpful throughout the exam.
Show the calculation of
... [Show More] the molecular weight for the following compounds, reporting your answer to 2 places after the decimal.
1. Al2(CO3)3
2. C8H6NO4Cl
1. 2Al + 3C + 9O = 233.99
2. 8C + 6H + N + 4O + Cl = 215.59
Question 2 Click this link to access the Periodic Table. This may be helpful throughout the exam.
Show the calculation of the number of moles in the given amount of the following substances. Report your answerto 3 significant figures.
1. 13.0 grams of (NH4)2CO3
2. 16.0 grams of C8H6NO4Br
1. Moles = grams / molecular weight = 13.0 / 96.09 = 0.135 mole
2. Moles = grams / molecular weight = 16.0 / 260.04 = 0.0615 mole
Question 3 Click this link to access the Periodic Table. This may be helpful throughout the exam.
Show the calculation of the number of grams in the given amount of the following substances. Report your answer to 1 place after the decimal.
1. 1.20 moles of (NH4)2CO3
2. 1.04 moles of C8H6NO4Br
1. Grams = Moles x molecular weight = 1.20 x 96.09 = 115.3 grams
2. Grams = Moles x molecular weight = 1.04 x 260.04 = 270.4 grams
Question 4 Click this link to access the Periodic Table. This may be helpful throughout the exam.
Show the calculation of the percent of each element present in the following compounds. Report your answer to 2 places after the decimal.
1. (NH4)2CrO4
2. C8H8NOI
1. %N = 2 x 14.01/152.08 x 100 = 18.43% %H = 8 x 1.008/152.08
x 100 = 5.30%
%Cr = 1 x 52.00/152.08 x 100 = 34.20% %O = 4 x
16.00/152.08 x 100 = 42.08%
2. %C = 8 x 12.01/261.05 x 100 = 36.80% %H = 8 x 1.008/261.05
x 100 = 3.09%
%N = 1 x 14.01/261.05 x 100 = 5.37% %O = 1 x
16.00/261.05 x 100 = 6.13%
%I = 1 x 126.9/261.05 x 100 = 48.61%
Question 5 Click this link to access the Periodic Table. This may be helpful throughout the exam.
Show the calculation of the empirical formula for each compound whose elemental composition is shown below.
38.76% Ca, 19.87% P, 41.27% O
38.76% Ca / 40.08 = 0.9671 / 0.6416 = 1.5 x 2 = 3
19.87% P / 30.97 = 0.6416 / 0.6416 = 1 x 2 = 2
41.27% O / 16.00 = 2.579 / 0.6416 = 4 x 2 = 8 → Ca3P2O8
Question 6
Click this link to access the Periodic Table. This may be helpful throughout the exam.
Balance each of the following equations by placing coefficients in front of each substance.
1. C6H6 + O2 → CO2 + H2O
2. As + O2 → As2O5
3. Al2(SO4)3 + Ca(OH)2 → Al(OH)3 + CaSO4
1. 2 C6H6 + 15 O2 → 12 CO2 + 6 H2O
2. 4 As + 5 O2 → 2 As2O5
3. Al2(SO4)3 + 3 Ca(OH)2 → 2 Al(OH)3 + 3 CaSO4
Question 7 Click this link to access the Periodic Table. This may be helpful throughout the exam.
Classify each of the following reactions as either: Combination
Decomposition Combustion
Double Replacement Single Replacement
1. H2SO4 → SO3 + H2O
2. S + 3 F2 → SF6
3. H2 + NiO → Ni + H2O
1. H2SO4 → SO3 + H2O = Decomposition, One reactant → Two Products
2. S + 3 F2 → SF6 = Combination. Two reactants→ One product
3. H2 + NiO → Ni + H2O = Single Replacement, Hydrogen displaces metal ion
Question 8 Click this link to access the Periodic Table. This may be helpful throughout the exam.
Show the calculation of the oxidation number (charge) of ONLY the atoms which are changing in the following redox equations.
Na2HAsO3
+
KBrO3
+ HCl → NaCl + KBr +
H3AsO4
Na2HAsO3
+
KBrO3
+ HCl → NaCl + KBr +
H3AsO4
Na2HAsO3: Na is metal in group I = +1 (total is +2), H = +1, each O is -2 (total is -6), so As is +3
H3AsO4: H is +1 (total is +3), each O is -2 (total is -8), so As is +5 KBrO3: K is metal in group I = +1, each O is -2 (total is -6), so Br is +5 KBr: K is metal in group I = +1, so Br is -1
Question 9 Click this link to access the Periodic Table. This may be helpful throughout the exam.
Show the balancing of the following redox equation, including the determination of the oxidation number (charge) of ONLY the atoms which are changing.
KMnO4 + KI + H2O → KIO3 + MnO2 + KOH
Mn compounds x 2 ; I compounds x 1 =
2KMnO4 + 1 KI + 1 H2O → 1 KIO3 + 2MnO2 + 2KOH KMnO4 + KI + H2O → KIO3 + MnO2 + KOH
KMnO4: K is metal in group I = +1, each O is -2 (total is -8), so Mn is +7
MnO2: Each O is -2 (total is -4), so Mn is +4
KI: K is metal in group I = +1, so I is -1
KIO3: K is metal in group I = +1, each O is -2 (total is -6), so I is +5
Since Mn (on left side) is +7 and Mn (on right side) is +4: Mn changes by 3 Since I (on left side) is -1 and I (on right side) is +5: I changes by 6
Multiply Mn compounds by 2 and I compounds by 1 and after balancing other atoms =
2 KMnO4 + 1 KI + 1 H2O → 1 KIO3 + 2 MnO2 + 2 KOH
Question 10 Click this link to access the Periodic Table. This may be helpful throughout the exam.
Show the balanced equation and the calculation of the number of moles and grams of CO2 formed from 20.6 grams of C6H6. Show your answers to 3 significant figures.
C6H6 + O2 → CO2 + H2O
Molar mass of CO2 = 44.01 g/mol
mass of CO2 = 1.5822 ml x 44.01 g/mol =69.63 grams
mass of CO2 = 69.63 grams moles of CO2 = 1.58 mole
2 C6H6 + 15 O2 → 12 CO2 + 6 H2O
20.6 g / (6 x 12.01 + 6 x 1.008) = 20.6 / 78.108 = 0.2637 mole x 12/2
= 1.58 mole CO2
1.582 mole CO2 x (12.01 + 2 x 16.00) = 69.6 g CO2 [Show Less]