Tutor Partner: April 2009

April 28, 2009

Formula Calculation Problems

1.	Give the name of the following compounds: (a) Li₂SO₄, (b) CaCl₂, (c) Na₂HPO₄.2H₂O, (d) KHSO₄, (e) PbF₂, (f) NH₄Br, (g) MnSO₄.H₂O
	Answer: (a) Lithium sulfate, (b) Calcium chloride, (c) Sodium hydrogen phosphate dihydrate, (d) Potassium hydrogen sulfate (e) Plumbous fluoride or Lead(II) fluoride (f) Ammonium bromide (g) Manganese sulfate monohydrate

2.	Give the formula of the following compounds: (a) Magnesium chloride, (b) Barium peroxodisulfate tetrahydrate, (c) Lithium hydroxide monohydrate, (d) Ammonium bromide, (e) Nickel chloride, (f) Lithium bromide, (g) Aluminum nitrate nonahydrate
	Answer: (a) MgCl₂, (b) BaS₂O₈.4H₂O, (c) LiOH.H₂O, (d) NH₄Br (e) NiCl₂ (f) LiBr (g) Al(NO₃)₃.9H₂O

3.	What is the formula weights of the following compounds: (a) CaC₄H₄O₆.2H₂O, (b) Na₂S.9H₂O, (c) NH₄NO₃, (d) Sr(NO₃)₂, (e) NH₄SCN, (f) KCl, (g) CuS
	Answer: (a) 224.1824 g , (b) 240.17634 g, (c) 80.0432 g, (d) 211.6298 g, (e) 76.116 g, (f) 74.5513 g, (g) 95.606 g

4.	Calculate the number of moles of LiNO₃ that will contain 6.02 x 10²³ atoms of O.
	Answer: 0.33 mol LiNO₃

5.	Calculate the number of moles of UO₂(NO₃)₂ that will contain 6.02 x 10²³ atoms of O.
	Answer: 0.125 mol UO₂(NO₃)₂

6.	Calculate the number of moles of AlK(SO₄)₂.12H₂O that will contain 6.02 x 10²³ atoms of O.
	Answer: 0.05 mol AlK(SO₄)₂.12H₂O

7.	How many number of Co atoms are contained in 43.3 g of CoSO₄?
	Answer: 1.68 x 10²³ Co atoms

8.	How many number of F atoms are contained in 7.81 g of BaF₂?
	Answer: 5.36 x 10²² F atoms

9.	How many number of Cr atoms are contained in 63.75 g of Hg₂CrO₄?
	Answer: 7.42 x 10²² Cr atoms

10.	How many number of I atoms are contained in 2.54 g of Hg₂I₂?
	Answer: 4.67 x 10²¹ I atoms

11.	Determine the number of molecules of (NH₄)₂S present in 59.86 g of (NH₄)₂S.
	Answer: 5.29 x 10²³ molecules

12.	Determine the number of molecules of Rb₂SO₄ present in 83.38 g of Rb₂SO₄.
	Answer: 1.88 x 10²³ molecules

13.	Determine the number of molecules of NH₄Br present in 12.3 g of NH₄Br.
	Answer: 7.56 x 10²² molecules

14.	Calculate the weight in grams of 2.62 mol Cd(NO₃)₂.4H₂O.
	Answer: 808.22 g

15.	Calculate the weight in grams of 0.92 mol NH₄NO₃.
	Answer: 73.64 g

16.	Calculate the weight in grams of 3.8 mol NaCH₃COO.
	Answer: 311.73 g

17.	Determine the mass of 8.04 x 10^-9 mol of CaCl₂. Calculate the number of Ca atoms in 8.04 x 10^-9 mol of CaCl₂.
	Answer: 8.92 x 10^-7 g; 4.84 x 10¹⁵ atoms

18.	Determine the mass of 10 x 10^-3 mol of MgSO₄.7H₂O. Calculate the number of O atoms in 10 x 10^-3 mol of MgSO₄.7H₂O.
	Answer: 2.46 g; 6.62 x 10²² atoms

19.	Determine the mass of 9.27 x 10^-8 mol of KNO₃. Calculate the number of O atoms in 9.27 x 10^-8 mol of KNO₃.
	Answer: 9.37 x 10^-6 g; 1.67 x 10¹⁷ atoms

20.	How many grams of each of the constituent elements are contained in 1 mol of: (a) LiI, (b) Li₂SO₄.H₂O, (c) Rb₂SO₄, (d) CaC₄H₄O₆.2H₂O, (e) CsCl, (f) CoSO₄, (g) Ba(NO₃)₂.H₂O
	Answer: (a) 1 mol Li = 6.941 g Li, 1 mol I = 126.9045 g I; (b) 2 mol H = 2.0158 g H, 5 mol O = 79.997 g O, 2 mol Li = 13.882 g Li, 1 mol S = 32.06 g S; (c) 2 mol Rb = 170.9356 g Rb, 1 mol S = 32.06 g S, 4 mol O = 63.9976 g O; (d) 8 mol H = 8.0632 g H, 8 mol O = 127.9952 g O, 1 mol Ca = 40.08 g Ca, 4 mol C = 48.044 g C; (e) 1 mol Cs = 132.9054 g Cs, 1 mol Cl = 35.453 g Cl; (f) 1 mol Co = 58.9332 g Co, 1 mol S = 32.06 g S, 4 mol O = 63.9976 g O; (g) 2 mol H = 2.0158 g H, 7 mol O = 111.9958 g O, 1 mol Ba = 137.33 g Ba, 2 mol N = 28.0134 g N

21.	Calculate the number of moles in 8.25 g CuCl₂.
	Answer: 0.06 mol CuCl₂

22.	Calculate the number of moles in 46.24 g NaH₂PO₄.
	Answer: 0.39 mol NaH₂PO₄

23.	Calculate the number of moles in 48.82 g Sr(NO₃)₂.
	Answer: 0.23 mol Sr(NO₃)₂

24.	Determine the number of moles in 3.49 g of Be.
	Answer: 0.39 mol Be

25.	Determine the number of moles in 68.94 g of O.
	Answer: 4.31 mol O

26.	Determine the number of moles in 98.05 g of Si.
	Answer: 3.49 mol Si

27.	Calculate the weight of one molecule of (a) Hg₂CrO₄, (b) FeSO₄.7H₂O, (c) ZnSO₄.H₂O, (d) Cu(OH)₂, (e) MgCl₂.6H₂O, (f) Cu(NO₃)₂, (g) Al(OH)₃
	Answer: (a) 8.59 x 10^-22 g/molecule, (b) 4.62 x 10^-22 g/molecule, (c) 2.98 x 10^-22 g/molecule, (d) 1.62 x 10^-22 g/molecule, (e) 3.38 x 10^-22 g/molecule, (f) 3.12 x 10^-22 g/molecule, (g) 1.3 x 10^-22 g/molecule

28.	How much BaCO₃ can be produced from 62.98 g of O?
	Answer: 258.94 g BaCO₃

29.	How much MnS can be produced from 68.56 g of Mn?
	Answer: 108.57 g MnS

30.	How much Al(OH)₃ can be produced from 62.1 g of Al?
	Answer: 179.53 g Al(OH)₃

Isotope Problems

1.	Silver atom has two known isotopes existing in nature as 51.82 % ¹⁰⁷Ag (atomic mass: 106.9041 u) and 48.18 % ¹⁰⁹Ag (atomic mass: 108.9047 u) Calculate the atomic weight of Silver.
	Answer: 107.868 u

2.	There are two known isotopes of Iridium atom: ¹⁹¹Ir with a mass of 190.9609 u and ¹⁹³Ir which has a mass of 192.9633 u. The atomic weight of Iridium atom is 192.2164. What is the percentage occurrence in nature of ¹⁹¹Ir? What is the percentage occurrence in nature of ¹⁹³Ir?
	Answer: 37.3% of ¹⁹¹Ir and 62.7% of ¹⁹³Ir.

3.	Carbon has an atomic weight of 12.011. Its isotopes exist in nature in the following proportions: 98.89% of ¹²C, 1.11% of ¹³C. One of its isotope, ¹²C, has a mass of 12 u. What is the mass of the other isotope?
	Answer: 12.991 u

April 2, 2009

Here is a new set of chemistry problems that you can use as drill and/or reviewer questions.

Percent Composition Problems

1.	Cd(NO₃)₂.4H₂O
	Answer: H = 2.61% O = 51.87% Cd = 36.44% N = 9.08%

2.	NaHCO₃
	Answer: Na = 27.37% H = 1.2% C = 14.3% O = 57.14%

3.	Co(NO₃)₂
	Answer: Co = 32.21% N = 15.31% O = 52.47%

4.	A laboratory sample was found to contain 68.05 % BaCO₃. Compute the amount of C present in 0.67 g of the sample.
	Answer: 0.03 g

5.	A laboratory sample was found to contain 33.56 % KIO₃. Compute the amount of I present in 9.91 g of the sample.
	Answer: 1.97 g

6.	A laboratory sample was found to contain 44.72 % PbSO₄. Compute the amount of O present in 1.56 g of the sample.
	Answer: 0.15 g

7.	A sample mixture containing ZnCl₂ has 4.83 % Zn. Calculate the percentage of ZnCl₂ in the sample.
	Answer: 10.07 %

8.	A sample mixture containing CuCO₃ has 5.19 % C. Calculate the percentage of CuCO₃ in the sample.
	Answer: 53.39 %

9.	Calculate the amount in g of C contained in 5.01 g of CaC₄H₄O₆.
	Answer: 1.28 g of C

10.	Calculate the amount in g of Na contained in 7.43 g of Na₂CO₃.H₂O.
	Answer: 2.75 g of Na

Solute Concentration Problems

1.	Calculate the weight of a 17% by weight CaCl₂ solution that will contain 7.61 g CaCl₂.
	Answer: 44.76 g solution

2.	Fuming hydrochloric acid has a density of 1.19 g/mL and has 37% HCl by weight. What is the mass of HCl in 55 mL of this acid?
	Answer: 24.22 g HCl

3.	4.69 g of HCl is needed to be obtained from fuming hydrochloric acid (density 1.19 g/mL) which has 37% HCl by weight. Calculate the volume of fuming hydrochloric acid needed.
	Answer: 10.65 mL fuming hydrochloric acid

4.	235 mL of a solution with a concentration of 8 M NaClO₄ is needed to be diluted in order to prepare a solution having a concentration of 4 M NaClO₄. What must be the final volume of the diluted solution?
	Answer: 470 mL

5.	How many g of ZnCl₂ is needed to prepare a 182 mL of a solution containing 3.46 g ZnCl₂ per mL?
	Answer: 629.72 g ZnCl₂

6.	Calculate the weight of a 8% by weight KI solution that will contain 3.46 g KI.
	Answer: 43.25 g solution

7.	Concentrated sulfuric acid has a density of 1.84 g/mL and has 97% H₂SO₄ by weight. What is the mass of H₂SO₄ in 144 mL of this acid?
	Answer: 257.01 g H₂SO₄

8.	137 mL of a solution with a concentration of 5 M Cu₂S is needed to be diluted in order to prepare a solution having a concentration of 1 M Cu₂S. What must be the final volume of the diluted solution?
	Answer: 685 mL

9.	4.69 g of HCl is needed to be obtained from fuming hydrochloric acid (density 1.19 g/mL) which has 37% HCl by weight. Calculate the volume of fuming hydrochloric acid needed.
	Answer: 10.65 mL fuming hydrochloric acid

10.	101 mL of a solution with a concentration of 8.24 g K₂S₂O₅ per mL is needed to be diluted in order to prepare a solution having a concentration of 6.45 g K₂S₂O₅ per mL. What must be the final volume of the diluted solution?
	Answer: 129.03 mL

Stoichiometry Problems

1.	Based on the following equation: Cu₂S + O₂ --> 2Cu + SO₂, calculate the number of mol of Cu₂S required to yield 4.02 mol of Cu.
	Answer: 2.01 mol of Cu₂S

2.	Given the equation: 2KClO₃ --> 2KCl + 3O₂, how many mol of KClO₃ will be needed to produce 7.23 mol of O₂?
	Answer: 4.82 mol of KClO₃

3.	According to the equation: CaCO₃ --> CaO + CO₂, calculate the mass of CaCO₃ required so that 4.29 mol of CaO will be produced.
	Answer: 429.38 g of CaCO₃

4.	Based on the following equation: 2C₂H₆ + 7O₂ --> 4CO₂ + 6H₂O, how many g of C₂H₆ will be needed to produce 4.87 mol of H₂O?
	Answer: 48.81 g of C₂H₆

5.	Based on the following equation: CaO + 3C --> CaC₂ + CO, how many g of C is required so that 1.2 g of CaC₂ is produced?
	Answer: 0.67 g of C

6.	Given the equation: 4KClO₃ --> 3KClO₄ + KCl, calculate the weight of KClO₃ necessary to produce 8.37 g of KClO₄.
	Answer: 9.87 g of KClO₃

7.	Given the equation: 2KClO₃ --> 2KCl + 3O₂, calculate the amount of O₂ that can be produced from the decomposition of 7.83 g of KClO₃.
	Answer: 3.07 g of O₂

8.	According to the equation: 4KClO₃ --> 3KClO₄ + KCl, calculate the weight of KClO₃ necessary to produce 2.86 g of KCl.
	Answer: 18.81 g of KClO₃

9.	Based on the following equation: 5C + 2SO₂ --> CS₂ + 4CO, how many g of C will be needed to produce 3.07 mol of CO?
	Answer: 46.09 g of C

10.	Based on the following equation: CaCO₃ + 2HCl --> CO₂ + CaCl₂ + H₂O, how many mol of CaCO₃ is needed to produce 1.57 g of CO₂?
	Answer: 0.04 mol of CaCO₃