Stoichiometry Part 1 PDF

Summary

This document provides an introduction to stoichiometry, a branch of chemistry focused on quantitative relationships in chemical reactions. The document demonstrates and explains the calculation of molecular mass and provides examples.

Full Transcript

Part 1
The terms "mass" and "weight" are used interchangeably in ordinary
conversation, but the two words don't mean the same thing. The
difference between mass and weight is that mass is the amount of
matter in a material, while weight is a measure of how the force of
gravity acts upon that mass.
Mass is the measure of the amount of matter in a body.
Weight is the measure of the amount of force acting on a mass due to
the acceleration due to gravity. Weight usually is denoted by W. Weight
is mass multiplied by the acceleration of gravity (g).
W=mxg
Example. Calculate the molecular mass of ethanol, whose condensed
structural in CH3CH2OH. Among its many uses, ethanol is a fuel for
internal combustion engines.
Given: molecules
Asked for: molecular mass
Solution:
A. Determine the number of atoms of each element in the
molecule. The molecular formula of ethanol may be written in
three different ways: CH3CH2OH (which illustrates the present
of an ethyl group, CH3CH2 －, and an －OH group), C2H5OH
and C 2 H 6 O; all show that ethanol has two carbon atoms, six
hydrogen atoms and one oxygen atom.
B. Obtain the atomic masses of each element from the
periodic table and multiply the atomic mass of each
elements by the number of atoms of that element.
2 x atomic mass of carbon = 2 x 12 g/mole = 24 g/mole
6 x atomic mass of hydrogen= 6 x 1 g/mole = + 6 g/mole
1 x atomic mass of oxygen = 1 x 16 g/mole = + 16 g/mole
46 g/mole
C. Add together the masses
Note: for convention atomic masses of element should be round off to the nearest
tenths or hundredths. Example atomic mass of oxygen is 15.9994 g/mole converted
to 16 g/mole; hydrogen atomic mass is 1.0079 g/mole converted to 1 g/mole; and
carbon atomic mass 12.011 g/mole converted to 12 g/mole.
Try to solve this:
Calculate the molecular mass of trichloromethane,
a lso k n ow n a s Fre o n - 11, w h o s e c o n d e n s e d
structural formula is CCl3F. Until recently, it was
used as refrigerant. The structural of a molecular
Freon-11 is shown below:

The answer must be 136 g/mole
 gram/g
Determining Mass Gram (g) = mole x ------------
mole

Mass (element) = mole (element) x atomic mass (element)

Mass (ionic compound) = mole (ionic compound) x formula mass

Mass (molecular compound) = mole (molecular compound) x molecular mass
 gram (g)
Determining Mole Mole = -----------------
gram (g)/mole

mass (element)
Mole (element) = --------------------------
atomic mass (element)

mass (ionic compound)
Mole (ionic compound) = -----------------------------
formula mass

mass (molecular compound)
Mole (molecular compound) = ---------------------------------
molecular mass
Determining Formula mass or Molecular
mass Gram (g)/mole = --------
gram

mole

mass (element)
atomic mass (element) = ---------------------
mole (element)

mass (ionic compound)
Formula mass = -----------------------------
mole (ionic compound)

mass (molecular compound)
Molecular mass = ---------------------------------
mole (molecular compound)
Determining Molecular and Empirical
Formula
When a new chemical compound, such as a potential
new pharmaceutical is synthesized in the laboratory or
isolated from a natural source, chemists determine its
elemental composition, its empirical formula, and its
structure to understand its properties. In this lesson, the
focus on how to determine the empirical formula of a
compound and then use it to determine the molecular
or formula mass of the compound is known.
Example: What are the percentages of carbon, hydrogen and oxygen
in sucrose, molecular formula C12H22O11.

From the molecular formula (C12H22O11) the mass of carbon, hydrogen and
oxygen can be computed.
To compute for the: mass = mole x atomic mass
Mass of carbon = moles of carbon x atomic mass of carbon
= 12 moles x 12 g/mole
= 144 grams
Mass of hydrogen = moles of hydrogen x atomic mass of hydrogen
= 22 moles x 1 g/mole
= 22 grams
Mass of oxygen = moles of oxygen x atomic mass of oxygen
= 11 moles x 16 g/mole
= 176 grams
 Element Analysis by Computation Percent
mass (gram) (%)
Carbon 144 144 g/342 g x 100 = 42.1
Hydrogen 22 22 g/342 g x 100 = 6.4
Oxygen 176 176 g/342 g x 100 = 51.5
Total 342 100.0

Thus, the percent of carbon in sucrose (C12H22O11) is 42.1 %, the
percent of hydrogen is 6.4 %, and the percent of oxygen is 51.5 %.
Supposing the percentage of the elements in the
unknown compound is given. Determine the
empirical formula of sample problem:
Sample Problem1: An unknown tablet subject for analysis
and it was found out that it contains 40.92 % C, 4.58 %
H, and 54.50 % O, by mass. The experiment ally
determined molecular mass is 176 g/mole. What is the
empirical and chemical formula for unknown tablet?
Solution:
Consider an arbitrary amount of 100 grams of the unknown tablet, so
it will be:
40.92 grams C
4.58 grams H
54.50 grams O
This would give us how many moles of each element?
moles = mass/atomic mass
Moles of carbon = 40.92 g/(12 g/mole) = 3.41 moles/3.40 moles` =1 x 3 = 3.0 = 3
Moles of hydrogen =4.58 g/(1 g/mole) = 4.58 moles/3.40 moles` =1.3 x 3 = 3.9 = 4
Moles of oxygen =54.50 g/(16 g/mole) = 3.40 moles/3.40 moles =1 x 3 = 3.0 = 3
The relative molar amounts of carbon and oxygen appear to be equal, but the relative molar
amount of hydrogen is higher. Since atom cannot have "fractional" value in a compound,
the need to normalize the relative amount of hydrogen to be equal to an integer (any of the
natural numbers, the negative of these numbers, or zero). 1.333 would appear to be 1 and
1/3, so if we multiply the relative amounts of each atom by '3', we should be able to get
integer values for each atom.
Thus the empirical formula is C3H4O3
What about the chemical formula? The molecular mass was determined
experimentally, it is 176 g/mole. What is the empirical mass of the empirical formula?
The empirical mass is:
3 x atomic mass of carbon = 3 x 12 g/mole = 36 g/mole
4 x atomic mass of hydrogen = 4 x 1 g/mole = 4 g/mole
3 x atomic mass of oxygen = 3 x 16 g/mole = 48 g/mole
88 g/mole
The molecular mass from the empirical mass is significantly lower than the
experimentally determined value. What is the ratio between the two values?
(176 g/mole/88 g/mole) = 2.0
Thus, it would appear that our empirical formula is essentially one half the mass of
the actual molecular mass. If we multiplied the empirical formula by '2', then the
molecular mass would be correct. Thus, the moleculaf formula is: 2(C3H4O3) = C6H8O6.
This is the formula of ascorbic acid therefore the unknown table is ASCORBIC
ACID.
Sample Problem 2. A laboratory technician ran an analysis on one of the
germicides stocked by a janitorial services. The technician determined
that the effective ingredient in the germecide was a compound that was
33% sodium, 36% arsenic, and 31% oxygen. What is the formula and
name of this compound?

Solution
Solve first for the moles of each elements:
Na: 33 grams/23 grams/mole = 1.5 moles/0.5 mole = 3
As: 36 grams/75 grams/mole = 0.5 mole/0.5 mole = 1
O: 31 grams/16 grams/mole = 2.0 moles/0.5 mole = 4

The formula of the compound is: Na3AsO4 (sodium arsenate)
Sample Problem 3. The major air pollutant of coal-burning power plants
is a colorless, pungent gaseous compound containing only sulfur and
oxygen. Chemical analysis of a 1.078 g sample of this gas showed that it
contained 0.540 g of S and 0.538 g of O.What is the empirical formula
of this compound?
Solution
0.540 g
Moles S = ---------- = 0.0169 mole/0.0169 mole = 1
32 g/mole

0.538 g
Moles O = ---------- = 0.0336 mole /0.0169 mole = 2
16 g/mole

Therefore the empirical formula of the compound is SO2 (sulfur dioxide)
Sample Problem 4. Benzene has the empirical formula CH. Its molecular
mass is 78g/mole. What is its molecular formula?
Solution
The empirical mass of CH
C: 1 x 12 g/mole = 12 g/mole
H: 1 x 1 g/mole = 1 g/mole
13 g/mole

Ratio of molecular mass and empirical mass = 78 g/mole/13 g/mole = 6

Therefore, the molecular formula of benzene is C6H6.
From the given in table below differentiate empirical formula from
molecular formula

Answer: The empirical formula
Empirical Molecular gives the smallest whole number
Formula Formula ra t i o b et we e n e l e m e n t s i n a
NO2 N2O4 compound while the molecular
CH C6H6 formula gives the actual whole
CH3O C2H6O2 number ratio between elements in
a compound.
The law of definite proportions states that:

“a chemical compound always contains the same
proportion of elements by mass; that is, the
percent composition—the percentage of each
element present in a pure substance—is constant.”

Note: although there are exceptions to this law.
Solve this problems.
1. What are the percentages of each elements in calcium permanganate ?
2. Herbadox® is a selective pre-emergent herbicide which contains 330
g/L Pendimethalin (C 13 H 19 N 3 O 4 ). With its contact action, it
effectively inhibits the root and shoot growth of grasses such as
Eleucine indica, Rottboellia exaltata, Echinochloa sp., Ischaemum
rugosum. Compute for the percentages of each elements in the
formula.
3. The chemist ran an analysis found out that a certain unknown
chemical compound contain 14.39% calcium, 39.57% manganese,
and 46.04% oxygen. What is the formula and name of this unknown
chemical compound?
Solve this problems.
4. In areas where temperature get extremely cold, people must take
special precautions to make sure machinery runs properly. One
compound containing 83% rubidium, 16% oxygen, and 1% hydrogen
is used in storage batteries designed for use in low temperatures.
What is the empirical formula for this compound?
5. What is the empirical formula of a compound if a sample contains
0.130 g of nitrogen and 0.370 g of oxygen?
6. Cyclobutane has the empirical formula CH2. Its molar molar mass is
42g. What is its molecular formula?