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Exp 7: Empirical Formulas

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Exp 7: Empirical Formulas Introduction Compounds are pure substances a combination two or more elements that form a new compound Chemical Formula – PowerPoint PPT presentation

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Title: Exp 7: Empirical Formulas


1
Exp 7 Empirical Formulas
  • Introduction
  • Compounds are pure substances
  • a combination two or more elements that form a
    new compound
  • Chemical Formula
  • a combination of symbols of the various elements
    that make up the compound
  • Formula unit
  • the smallest collection of atoms that provides
    information on a compound
  • the identity of the atoms
  • the relative number of each type of atom

2
Exp 7 The Empirical Formula of an Oxide
  • Law of Definite or Constant Composition
  • A pure compound contains 2 or more atoms in
    definite proportions
  • No matter what its source, a specific compound is
    composed of the same elements in the same mass
    fraction or ratio
  • Every chemical compound has a formula that
    describes the type and number of different atoms
    in the compound
  • Interpretation of a Chemical Formula
  • By pieces of matter atoms, molecules, ions
  • By the number of moles where a mole is a
    bunch of pieces of matter
  • Analysis gives you the composition of AB2C
  • mass percentage
  • mass A (mass of A in the whole amount/mass of
    the whole amount) x 100
  • molar composition or mole percent
  • mole of A (moles of A/total number of moles)
    x 100

3
Exp 7 The Empirical Formula of an Oxide
  • Mass percentage
  • By definition masspart

  • masswhole
  • Example 0.192 g P reacts with oxygen to form
    0.440 g of a phosphorus oxide. What is the
    composition?
  • mass of oxygen in the oxide
  • (total mass of the oxide) (mass of
    phosphor)
  • (0.440 g 0.192 g) 0.248 g oxygen
  • Mass O (0.248 g/0.440 g) x 100 56.4
  • Mass P (0.192 g/0.440 g) x 100 43.6

Mass ___________ x 100
4
Exp 7 The Empirical Formula of an Oxide
  • Question
  • What is a mole and what is a molar mass?
  • What are the molar masses of magnesium and atomic
    oxygen?
  • Answer
  • A mole is the quantity of a substance that
    contains as many molecules or formula units as
    the number of atoms in exactly 12 g of carbon-12
  • A mole is a quantity of substance whose mass in
    grams is numerically equal to its mass in amu
  • A molar mass is the mass in grams of one mole of
    a substance
  • The molar masses of magnesium and oxygen are
    24.305 g and 15.9994 g, respectively

5
Exp 7 The Empirical Formula of an Oxide
  • Mole is also considered a Chemical counting unit
  • 1 atom Al 26.98 amu 1 mol Al 26.98 g
  • 1 atom O 16.00 amu 1 mol O 16.00 g
  • 1 molecule O2 32 amu 1 mol O2 32.00 g
  • 1 atom Na 22.99 amu 1 mol Na 22.99 g
  • 1 atom Cl 35.45 amu 1 mol Cl 35.45 g
  • 1 molecule Cl2 70.90 amu 1 mol Cl2 70.90 g
  • 1 formula unit NaCl 58.45 amu 1 mol NaCl
    58.45 g

6
Exp 7 The Empirical Formula of an Oxide
  • Mole percentage and empirical formula
  • 0.192 g P reacts with oxygen to form 0.440 g of a
    phosporus oxide
  • mass of oxygen in the oxide 0.248 g oxygen
  • molar mass of P 30.98 g/mol
  • molar mass of O 15.9994 g/mol
  • of moles of O 0.248 g/15.9994 g/mol 0.0155
    mol 1.55 x 10-2 mol
  • of moles of P 0.192 g/30.974 g/mol 0.0062
    mol 6.2 x 10-3 mol
  • We have 1.55 x 10-2 mol O and 6.2 x 10-3 mol P
  • Ratio O/P 1.55 x 10-2 mol/ 6.2 x 10-3 mol 2.5
  • Empirical formula P1O2.5
  • You cannot split atoms ? it needs to be a
    whole-number ratio
  • ? P1O2.5 P2O5 (empirical formula)
  • Molar percentage of P 2 mol/7 mol x 100 28.6
  • Molar percentage of O 5 mol/7 mol x 100 71.4

7
Exp 7 The Empirical Formula of an Oxide
  • Possible Reaction Equation
  • Elemental phosphorous P4
  • Elemental oxygen O2
  • Reaction equation
  • P4 O2 ? P2O5
  • Needs balancing (Law of Mass Conservation)
  • number of atoms in the reactants (left of the
    arrow) number of atoms in product(s) (right of
    the arrow)
  • balanced equation
  • P4 5 O2 ? 2P2O5

8
Exp 7 The Empirical Formula of an Oxide
  • NOTES for the EXPERIMENT
  • Purpose
  • Observe the reaction of magnesium with oxygen
  • Determine the empirical formula of the product,
    magnesium oxide
  • Background
  • Oxygen (O2) is very reactive when heated
  • Many elements react with oxygen, forming an
    oxide
  • Nitrogen (N2) is very unreactive, even at high
    temperature
  • Only very active metals react with N2, forming a
    nitride
  • Water (H2O) and nitrides react to form
    hydroxides (compounds of a metal and a
    hydroxide, OH) and ammonia, NH3.
  • Heating the hydroxide converts it to an oxide and
    water vapor

9
Exp 7 The Empirical Formula of an Oxide
  • Background
  • Final product is magnesium oxide
  • Primary reaction
  • Reaction between Mg and O2 ? MgO
  • Secondary reaction
  • - Reaction between Mg and N2 ? Mg3N2
  • - Mg3N2 and water (H2O) form Mg(OH)2
  • - Heating Mg(OH)2 results in formation of MgO
    and H2O
  • All Mg is now converted to MgO
  • Mass of O2 that reacted with Mg can be
    determined from the original mass of Mg and the
    mass of the final product, MgO
  • Laws of conservation of mass and number of moles
    are used to calculate this amount

10
Exp 7 The Empirical Formula of an OxideChemicals
  • Magnesium
  • Formula Mg
  • Mole mass 24.305
  • Melting point 650 oC
  • Boiling point 1107 oC
  • Density 1.74 g/cm3
  • Water Solubility Insoluble/reactive
  • Appearance Silvery to grayish-white metal
  • Comments Flammable solid
  • Magnesium oxide
  • Formula MgO
  • Mole mass 40.3044
  • Melting point 2800
  • Boiling point 3600
  • Density 3.58 g/cm3
  • Water Solubility Insoluble
  • Appearance White fume
  • Comments Moisture-sensitive
  • Oxygen
  • Formula O2
  • Mole mass 31.9988
  • Melting point -218.4 oC
  • Boiling point -183.17 oC
  • Vapor Density 1.1053 g/cm3
  • Water Solubility Slightly soluble
  • 0.004 g/100 ml
  • Appearance Colorless gas blue liquid
  • Comments non-flammable gas

11
Exp 7 The Empirical Formula of an
OxideExperimental Procedure
  • Prepare
  • Wash and dry a crucible with lid
  • Put the crucible on a clay triangle over a Bunsen
    burner and heat for about 3 min at high heat
  • Cool for 5-10 min (why?) and weigh the crucible
    with lid
  • Repeat heating, cooling and weighing until 2
    consecutive weights are within 0.001 g of each
    other
  • Record in your lab notebook in 4 decimals
  • Weigh out about 0.2 g Mg ribbon (record weight)
  • Fold Mg ribbon loosely (not too tight!) and put
    in crucible
  • Weigh crucible, Mg ribbon and lid. Record weight

12
Exp 7 The Empirical Formula of an
OxideExperimental Procedure
  • Heating
  • Put crucible, Mg ribbon and lid on clay triangle.
    Cover crucible with lid.
  • Brush bottom for 2-3 min with hot flame
  • Put burner under crucible and heat for 3 more min
    in the hottest part of the flame
  • Lift lid slightly with tongs to allow air to
    enter
  • Dont open too far, because Mg will catch fire
  • Metal should glow bright-red
  • Repeat approximately every 3-5 min until no metal
    is visible anymore
  • all is converted to magnesium oxide powder
  • no glowing is visible anymore
  • Allow crucible to cool

13
Exp 7 The Empirical Formula of an
OxideExperimental Procedure
  • Analysis
  • When the crucible has cooled down to the point
    where it is close to room temperature
  • you feel no heat when you bring your finger
    within ½ in of the crucible
  • Weigh the crucible content lid. Record the
    weight
  • Heat again for 3 min
  • Cool crucible and obtain weight record weight in
    4 decimals
  • Repeat until weight is constant
  • 2 consecutive weightings within 0.001 g of each
    other

14
Exp 7 The Empirical Formula of an OxideChemicals
  • Post-Lab Assignment due next week
  • Fill in the Report Sheet (p. 115)
  • Omit 9, 10, 11
  • Show all your calculations on a separate sheet of
    paper.
  • Answer questions 1 through 4 on Laboratory
    questions following your calculations on the
    sheet of paper
  • Critical Thinking (no need to write)
  • Think carefully about the precision of the
    masses that you determined on the electronic
    balance. How many significant figures are
    justified in your answer?
  • Also due Pre-lab for next lab
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