Presentation is loading. Please wait.

Presentation is loading. Please wait.

Determining the Empirical Formula Purpose of the Experiment

Similar presentations


Presentation on theme: "Determining the Empirical Formula Purpose of the Experiment"— Presentation transcript:

1 Determining the Empirical Formula Purpose of the Experiment
of Copper Chloride Purpose of the Experiment Determine the empirical formula of a compound containing only copper and chlorine

2 Molar Mass or Molecular Weight
The molecular weight is the mass, in grams, of one mole of a compound. H2O MWt = g/mol AlCl3 MWt = g/mol

3 Percentage Composition
The percentage composition is the percent of a compound’s mass that results from each of its constituent elements. For ethanol, C2H5OH, 2  g/mol C = g/mol of C2H5OH 6  g/mol H = g/mol of C2H5OH 1  g/mol O = g/mol of C2H5OH Molecular Weight = the sum = g/mol of C2H5OH % C = ( g/mol ÷ g/mol) 102 = % % H = ( g/mol ÷ g/mol) 102 = % % O = ( g/mol ÷ g/mol) 102 = % Sum = 100 %

4 Empirical Formula Molecular Formula
The empirical formula is the simplest whole- number ratio of the atoms in a compound. Examples: benzene, CH phosphorus pentoxide, P2O5 Molecular Formula The molecular formula is the simplest whole- number ratio of the atoms in a single molecule of a compound. Examples: benzene, C6H6 phosphorus pentoxide, P4O10

5 Schematic diagram of the combustion device used
to analyze substances for carbon and hydrogen CxHy + O2 ----> y/2H2O + xCO2 excess

6 Determination of the Empirical Formula
A white compound has been analyzed and found to contain 43.6 wt. % phosphorous and 56.4 wt. % oxygen. In a separate study it molecular weight has been found to be 284 g/mol. What is the empirical formula of this compound? Assume exactly 100 g of the compound, then one has 43.6 g P ÷ g/mol P = mol of P 56.4 g O ÷ g/mol O = mol of O then the molar ratios are 1.408 mol ÷ mol = mol P 3.525 mol ÷ mol = mol O and the empirical formula is P2O5.

7 Determination of the Molecular Formula
A white compound has been analyzed and found to contain 43.6 wt. % phosphorous and 56.4 wt. % oxygen. In a separate study it molecular weight has been found to be 284 g/mol. What is the molecular formula of this compound? First determine the empirical weight of P2O5: 2  g/mol P = g/mol P 5  g/mol O = g/mol O The empirical weight of P2O5 = the sum = g/mol Molecular weight ÷ Empirical weight = 284 g/mol ÷ g/mol = 2.001 and the molecular formula is twice the empirical formula and the molecular formula is P4O10.

8 Determining the Empirical Formula of Magnesium Oxide
The goal is to determine x and y in the unknown magnesium oxide, MgxOy, by burning a known mass of Mg in an excess of oxygen. Mg(s, silvery-white) + O2(g) limiting reagent MgxOy(s, white) 0.353 g of Mg solid Atmospheric oxygen in excess heat Result: Mass of MgxOy = g

9 Determining the Empirical Formula of Magnesium Oxide
Note: mass of O = total mass – mass Mg = g – g = g then % Mg = (mass Mg ÷ total mass MgxOy) 102 = (0.353 g ÷ g) 102 = 60.3 % % O = (mass O ÷ total mass MgxOy) 102 = (0.232 g ÷ g) 102 = 39.7 % Mg = 60.3 % and O = 39.7 %

10 and the unknown oxide is MgO
Mg = 60.3% and O = 39.7% Stoichiometry and the percentage composition of three possible magnesium oxides Possible Oxides MgxOy Mg O MgO 60.3 % 39.7 % MgO2 43.2 % 56.8 % Mg2O 75.2 % 24.8 % and the unknown oxide is MgO

11 Today’s Experiment Original experiment Modified experiment
Zn(s, silvery white) + CuxCly(aq, blue) ZnCl2(aq) + Cu(s, reddish) Modified experiment Al(s, silvery white) + CuxCly(aq, blue) AlCl3(aq) + Cu(s, reddish) ~0.3 g ea. strip (excess) 25 mL Limiting reagent known mass known mass

12 From: http://wine1.sb.fsu.edu/chm1045/tables/period/PT_large.jpg

13 Copper is a transition metal with partially filled d orbitals.
A transition metal may exhibit multiple oxidation states, such as +1, +2, or +3, oxidation states which are not easily predicted by its position in the periodic table. Because of the partially filled d orbitals, a transition metal ion in aqueous solution frequently is brightly colored, e.g., copper ions are blue in aqueous solution. Zinc and aluminum are both stronger reducing agents than copper, see their redox potentials, so either will yield metallic copper from a solution of a copper salt. Dr. Terry Bone, September 22, 2005

14 These potentials indicate the relative thermodynamic
tendency for the indicated half-reaction to occur.

15 Other Reactions in the Procedure:
Removal of Excess Reducing Agent Zn(s) HCl(aq) ----> ZnCl2(aq) + H2(g) 2 Al(s) HCl(aq) ----> 2 AlCl3(aq) H2(g) Cu(s) + n HCl(aq) --x--> no reaction Note: Cu is below H (0.00 V ref) in table, so It will not react with acids H+(aq) to form H2(g) Metals above H in the table will react with acids.

16 Checkout Reagents in Lab 2 piece Al foil, ~0.3 g ea 1 pr Beaker Tongs
CuClx solution in 4 L spigot jugs, use ~25 ml for each analysis Record data: g CuClx/ml, d = g/ml 10 % HCl in 1 L wash bottles, use ~5 ml Use solid NaHCO3 on acid spills

17 Flow Chart for Procedure
25 mL copper chloride, weigh and use exact density to get mass of CuClx Add Al foil Stir (takes about 5 min) Add 5-10 drops of 10 % HCl and stir (HCl will dissolve excess Al) Decant the supernatant liquid Cu waste

18 Flow Chart for Procedure
Cu Wash with distilled water to remove aluminum chloride Transfer Cu residue to a pre-heated and pre-weighed casserole waste CAUTION: Do not overheat to avoid oxidation heat Determine the mass of Cu waste

19 Procedure Notes Record all weights to 0.001g
Weigh 25 ml of CuClx solution, use exact density to calculate exact volume, then calculate the mass of CuClx Do not use metal forceps or spatulas Add Al foil until blue color is gone, allow excess foil to dissolve Allow container to cool before weighing Speed up cooling by placing flask in front of hood sash raised 4-6” The second beaker does not have to be 150 mL A casserole will also work as an evaporating dish

20 Hazards Waste 10 % HCl is a corrosive strong acid
CuClx solution-heavy metal, irritant Hot surfaces - hotplates, glassware Waste Liquid waste: Al+3 solution and HCl Cu solids

21 Summary of Data & Calculations
Collected data Results (calculations) Mass percent of Cu Mass of Cl Mass percent of Cl Empirical formula Mass of CuClx Mass of Cu

22 Antacid Analysis (packet)
Next Week’s Experiment: Antacid Analysis (packet) Additional background reading for Antacid Analysis/Titrations: Atkins, “Chemical Principles”, 3rd ed, pp. F67-F72, F85-F88,


Download ppt "Determining the Empirical Formula Purpose of the Experiment"

Similar presentations


Ads by Google