Chemistry Term 2: Unit 1 - PowerPoint PPT Presentation

1 / 16
About This Presentation
Title:

Chemistry Term 2: Unit 1

Description:

45.11 g N x 1mol N = 3.22 mole N 14.01 gN ... Divide the actual molar mass by the the mass of one mole of the empirical formula. ... – PowerPoint PPT presentation

Number of Views:22
Avg rating:3.0/5.0
Slides: 17
Provided by: kennCr
Category:
Tags: chemistry | mole | term | unit

less

Transcript and Presenter's Notes

Title: Chemistry Term 2: Unit 1


1
Chemistry Term 2 Unit 1
  • Chapter 7 - Section 3
  • Percent Comp. Empirical Formulas
  • Chapters 15/16
  • Ionic Covalent Bonding

2
Percent Composition
  • Like all percents
  • Part x 100 whole
  • Find the mass of each component,
  • divide by the total mass.

3
Example
  • Calculate the percent composition of a compound
    that is 29.0 g of Ag with 4.30 g of S.

29.0 g
Ag
X 100
87.09
33.3 g
4.30 g
S
X 100
12.91
33.3 g
  • Percentages should add to 100
  • Always round to the hundredths place

4
Getting it from the formula
  • If we know the formula, assume you have 1 mole.
  • Then you know the pieces and the whole.

5
Examples
  • Calculate the percent composition of C2H4?

Molecular Mass (2 x 12.01) (4 x 1.01)
28.06 g
24.02 g
C
x 100
85.60 C
28.06 g
4.04 g
H
x 100
14.40 H
28.06 g
6
Empirical Formula
  • From percentage to formula

7
The Empirical Formula
  • The lowest whole number ratio of elements in a
    compound.
  • The molecular formula the actual ration of
    elements in a compound.
  • The two can be the same.
  • CH2 empirical formula
  • C2H4 molecular formula
  • C3H6 molecular formula
  • H2O both

8
Calculating Empirical
  • Just find the lowest whole number ratio
  • C6H12O6
  • CH4N
  • It is not just the ratio of atoms, it is also the
    ratio of moles of atoms.
  • In 1 mole of CO2 there is 1 mole of carbon and 2
    moles of oxygen.
  • In one molecule of CO2 there is 1 atom of C and 2
    atoms of O.

9
Calculating Empirical
  • Means we can get ratio from percent composition.
  • Assume you have a 100 g.
  • The percentages become grams.
  • Can turn grams to moles.
  • Find lowest whole number ratio by dividing by the
    smallest.

10
Example
  • Calculate the empirical formula of a compound
    composed of 38.67 C, 16.22 H, and 45.11 N.
  • Assume 100 g so
  • 38.67 g C x 1mol C 3.22 mole C
    12.01 gC
  • 16.22 g H x 1mol H 16.09 mole H 1.01
    gH
  • 45.11 g N x 1mol N 3.22 mole N 14.01
    gN

These numbers should be rounded to the
hundredths place
11
Example Contd
3.22 mol C
1 C
/3.22
End result should be a whole number. Only
exception when it ends in .5 you should then
double all of them.
16.09 mol H
/3.22
5 H
1 N
3.22 mol N
/3.22
Divide by the smallest number
  • C1H5N1
  • CH5N Final Answer

12
Example 2
  • A compound is 43.64 P and 56.36 O. What is
    the empirical formula?

43.64 g P / 30.97 1.41
/1.41
1
x 2
2
56.36 g O / 16 3.52
/1.41
2.5
x 2
5
Answer P2O5
13
Empirical to molecular
  • Since the empirical formula is the lowest ratio
    the actual molecule would weigh more.
  • By a whole number multiple.
  • Divide the actual molar mass by the the mass of
    one mole of the empirical formula.

14
Example
  • A compound is known to be composed of 71.65
    Cl, 24.27 C and 4.07 H. Its molar mass is known
    to be 98.96 g. What is its molecular formula?

Step 1 Calculate Empirical Formula like before
71.65 g Cl / 35.45 2.02
/2.02
1
24.27 g C / 12.01 2.02
/2.02
1
2
4.07 g H / 1.01 4.03
/2.02
15
Example contd
Step 1 Formula ClCH2
Step 2 Figure out molecular mass (35.45 12.01
21.01) 49.48
Step 3 Divide Mass of molecular formula by mass
of empirical formula round to the whole number
98.96 g
2
49.48 g
16
Example contd
  • Step 4 Multiply that number by empirical
    formula to get molecular formula
  • ClCH2 x 2 Cl2C2H4

Final Answer
Write a Comment
User Comments (0)
About PowerShow.com