Components of Matter
MTaherHamdani
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32 slides
Sep 08, 2014
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About This Presentation
Components of Matter
Slide Content
General Chemistry (MF 001)
Chapter 1 :Components of Matter
Chapter 1 :Components of Matter
Chapter 1 :Components of Matter
____________________________
1.1 Matter – Physical states and
classification
1.2 Atom – Theory and structure
1.3 Atomic number, mass number and
atomic symbol
1.4 Isotope
1.5 Relative masses
1.6 Mass spectrometry
____________________________
1.1 Matter – Physical states and
classification
1.2 Atom – Theory and structure
1.3 Atomic number, mass number and
atomic symbol
1.4 Isotope
1.5 Relative masses
1.6 Mass spectrometry
CHEMISTRY
However….
Importance
- Elucidate the chemical reactions involved in
chemical, physical and biological systems
- Convert one substance to another to make useful
products
(e.g. 1)Crude oil petrol,
2)mRNA cDNA)
Study of
- matter and its chemical and
physical properties
- chemical and physical
changes matter undergoes
and the energy change
associated
AN INTRODUCTION TO CHEMISTRY
However….
Importance
- Elucidate the chemical reactions involved in
chemical, physical and biological systems
- Convert one substance to another to make useful
products
(e.g. 1)Crude oil petrol,
2)mRNA cDNA)
Study of
- matter and its chemical and
physical properties
- chemical and physical
changes matter undergoes
and the energy change
associated
AN INTRODUCTION TO CHEMISTRY
- Chemical disaster
- Pollution, Global warming, Melting
Glazier
- Long term health risk
Chemical spill resulting in fumes
Chemical food dyes
Problems
- Pollution, Global warming, Melting
Glazier
- Long term health risk
Chemical spill resulting in fumes
Chemical food dyes
Problems
Matter
Anything that has mass and volume
Occur in three physical states:
1. Solid (Volume and shape are fixed) (eg,
Wood, Ice, Playstation remote control)
2. Liquid (Volume, but not shape, is fixed)
(eg, H
2
O, Alcohol, oil)
3. Gas (Volume and shape are not fixed)
(eg, CO
2 ,
O
2 ,
NO
2
)
Anything that has mass and volume
Occur in three physical states:
1. Solid (Volume and shape are fixed) (eg,
Wood, Ice, Playstation remote control)
2. Liquid (Volume, but not shape, is fixed)
(eg, H
2
O, Alcohol, oil)
3. Gas (Volume and shape are not fixed)
(eg, CO
2 ,
O
2 ,
NO
2
)
Definitions for Components of Matter
Classified into three types:
1.Element
2.Compound
3.Mixture
1.Element - the simplest type of substance with
unique physical and chemical properties. An element
consists of only one type of atom. It cannot be
broken down into any simpler substances by
physical or chemical means.
Classified into three types:
1.Element
2.Compound
3.Mixture
1.Element - the simplest type of substance with
unique physical and chemical properties. An element
consists of only one type of atom. It cannot be
broken down into any simpler substances by
physical or chemical means.
2.Compound - a substance
composed of two or more elements
which are chemically combined.
(e.g. NH
3
)
3.Mixture - a group of two or
more elements and/or
compounds that are physically
intermingled.(e.g. softdrinks,
cement, milk)
composed of two or more elements
which are chemically combined.
(e.g. NH
3
)
3.Mixture - a group of two or
more elements and/or
compounds that are physically
intermingled.(e.g. softdrinks,
cement, milk)
Other Definition
Molecule - a structure that
consists of two or more
atoms that are chemically
bound together and thus
behaves as an
independent unit.
Substance - a form of matter that has a
definite (constant) composition and distinct
properties such as apearance, smell, taste
and others. Eg. Water, gold, table sugar
and oxygen.
Molecule - a structure that
consists of two or more
atoms that are chemically
bound together and thus
behaves as an
independent unit.
Substance - a form of matter that has a
definite (constant) composition and distinct
properties such as apearance, smell, taste
and others. Eg. Water, gold, table sugar
and oxygen.
The Modern Atomic Theory
___________________________
1.All matter is composed of atoms
2.Atoms of one element cannot be converted
into atoms of another element in a chemical
reaction, but can in a nuclear reaction
3.All atoms of an element have the same
number of protons and electrons, which
determine the chemical behaviour of the
element
4.Compounds are formed by chemical
combination of two or more elements in
specific ratio
___________________________
1.All matter is composed of atoms
2.Atoms of one element cannot be converted
into atoms of another element in a chemical
reaction, but can in a nuclear reaction
3.All atoms of an element have the same
number of protons and electrons, which
determine the chemical behaviour of the
element
4.Compounds are formed by chemical
combination of two or more elements in
specific ratio
Atom
____________________________
•Electrically neutral
•Spherical
•Consist of a positively charged nucleus, around
which negatively charged electrons (e
-
) are
found
•What is the force that holds electrons around the
atomic nucleus?
____________________________
•Electrically neutral
•Spherical
•Consist of a positively charged nucleus, around
which negatively charged electrons (e
-
) are
found
•What is the force that holds electrons around the
atomic nucleus?
General features of the atom today
•The atom is an electrically neutral, spherical entity composed of a positively
charged central nucleus surrounded by one or more negatively charge
electrons.
The atomic nucleus consists of protons and neutrons
•The atom is an electrically neutral, spherical entity composed of a positively
charged central nucleus surrounded by one or more negatively charge
electrons.
The atomic nucleus consists of protons and neutrons
Atom – Subatomic Particles
____________________________
Subatomic
Particle
Relative
Charge
Relative
mass
Location in
nucleus
Proton
(p
+
)
+1
(Absolute =
+1.6 ´ 10
-19
C)
1
(Absolute =
1.7 ´ 10
-24
g)
Nucleus
Neutron
(n
0
)
0
(Absolute =
0 C)
1
(Absolute =
1.7 ´ 10
-24
g)
Nucleus
Electron
(e
-
)
-1
(Absolute =
+1.6 ´ 10
-19
C)
0.0005
(Absolute =
9.1 ´ 10
-28
g)
Outside
nucleus
____________________________
Subatomic
Particle
Relative
Charge
Relative
mass
Location in
nucleus
Proton
(p
+
)
+1
(Absolute =
+1.6 ´ 10
-19
C)
1
(Absolute =
1.7 ´ 10
-24
g)
Nucleus
Neutron
(n
0
)
0
(Absolute =
0 C)
1
(Absolute =
1.7 ´ 10
-24
g)
Nucleus
Electron
(e
-
)
-1
(Absolute =
+1.6 ´ 10
-19
C)
0.0005
(Absolute =
9.1 ´ 10
-28
g)
Outside
nucleus
Atom – Subatomic Particles
____________________________
•Smaller atoms have similar number of p
+
and n
0
•Larger atoms have more n
0
than p
+
____________________________
•Smaller atoms have similar number of p
+
and n
0
•Larger atoms have more n
0
than p
+
Atomic Number (Z)
____________________________
•Number of p
+
in the atomic nucleus of an element
•Number of e
-
in an atom of an element
•All atoms of an element have the same Z
•Different elements will have different Z
•E.g. Z
hydrogen = 1, Z
carbon = 6 and Z
oxygen = 8
____________________________
•Number of p
+
in the atomic nucleus of an element
•Number of e
-
in an atom of an element
•All atoms of an element have the same Z
•Different elements will have different Z
•E.g. Z
hydrogen = 1, Z
carbon = 6 and Z
oxygen = 8
Mass Number (A)
____________________________
•Total number of protons and neutrons in the
atomic nucleus of an element
•E.g.
Element Z Number
of e
-
Number
of n
0
A
Hydrogen 1 1 0 1
Carbon 6 6 6 12
Uranium 92 92 146 238
____________________________
•Total number of protons and neutrons in the
atomic nucleus of an element
•E.g.
Element Z Number
of e
-
Number
of n
0
A
Hydrogen 1 1 0 1
Carbon 6 6 6 12
Uranium 92 92 146 238
Atomic Symbols, Isotopes, Numbers
X = Atomic symbol of the element
A = mass number; A = Z + N
Isotope = atoms of an element with the same
number of protons, but a different number
of neutrons
A
Z
Z = atomic number
(the number of protons in the nucleus)
N = number of neutrons in the nucleus
X
The Symbol of the Atom or Isotope
A is written as a left
superscript to the
symbol
Z is written as a left subscript to the symbol
X = Atomic symbol of the element
A = mass number; A = Z + N
Isotope = atoms of an element with the same
number of protons, but a different number
of neutrons
A
Z
Z = atomic number
(the number of protons in the nucleus)
N = number of neutrons in the nucleus
X
The Symbol of the Atom or Isotope
A is written as a left
superscript to the
symbol
Z is written as a left subscript to the symbol
Atomic Symbol
Sample Problem and EXERCISE 1:
•How many p
+
, n
0
and e
-
are found in the atom of these
elements?
A) 12 B) 35 C) 23
C Cl Na
6 17 11
Solution:
A)The atomic number is 6, so there are 6 protons.
The mass number is 12, so the number of neutron is 12 -6 =6.
The number of electrons is the same as the number of protons that is 6.
B) The atomic number is 17, so there are 17 protons.
The mass number is 35, so the number of neutron is 35 -17 =18
The number of electrons is the same as the number of protons that is 17.
PLAN:We have to use the atomic number and atomic masses.
Sample Problem and EXERCISE 1:
•How many p
+
, n
0
and e
-
are found in the atom of these
elements?
A) 12 B) 35 C) 23
C Cl Na
6 17 11
Solution:
A)The atomic number is 6, so there are 6 protons.
The mass number is 12, so the number of neutron is 12 -6 =6.
The number of electrons is the same as the number of protons that is 6.
B) The atomic number is 17, so there are 17 protons.
The mass number is 35, so the number of neutron is 35 -17 =18
The number of electrons is the same as the number of protons that is 17.
PLAN:We have to use the atomic number and atomic masses.
c)Your answer?
Isotopes
____________________________
•Atoms of an element with the same
number of protons but different number of
neutrons
•All isotopes have very similar chemical
characteristics although their mass is
different
____________________________
•Atoms of an element with the same
number of protons but different number of
neutrons
•All isotopes have very similar chemical
characteristics although their mass is
different
Determining the Number of Subatomic
Particles in the Isotopes of an Element
PROBLEM: Silicon(Si) is essential to the computer industry as a major
component of semiconductor chips. It has three naturally
occurring isotopes:
28
Si,
29
Si, and
30
Si. Determine the number
of protons, neutrons, and electrons in each silicon isotope.
PLAN: We have to use the atomic number and atomic masses.
SOLUTION:The atomic number of silicon is 14. Therefore
28
Si has 14p
+
, 14e
-
and 14n
0
(28-14)
29
Si has 14p
+
, 14e
-
and 15n
0
(29-14)
30
Si has 14p
+
, 14e
-
and 16n
0
(30-14)
Sample problem:
Particles in the Isotopes of an Element
PROBLEM: Silicon(Si) is essential to the computer industry as a major
component of semiconductor chips. It has three naturally
occurring isotopes:
28
Si,
29
Si, and
30
Si. Determine the number
of protons, neutrons, and electrons in each silicon isotope.
PLAN: We have to use the atomic number and atomic masses.
SOLUTION:The atomic number of silicon is 14. Therefore
28
Si has 14p
+
, 14e
-
and 14n
0
(28-14)
29
Si has 14p
+
, 14e
-
and 15n
0
(29-14)
30
Si has 14p
+
, 14e
-
and 16n
0
(30-14)
Sample problem:
Isotopes
•EXERCISE 2:
How many p
+
and n
0
are found in the atom of
these isotopes?
12 13 14
C C C
6
6
6
Your answer:
•EXERCISE 2:
How many p
+
and n
0
are found in the atom of
these isotopes?
12 13 14
C C C
6
6
6
Your answer:
Relative Masses
•Relative molecular mass (M
r
):
-Mass of a molecule of a covalent compound
relative to 1/12 of the mass of a
12
C atom
-Sum of all the A
r of all the constituent atoms
of a molecule
-E.g. M
r
CO
2
= 12 + 2(16)
= 44
•Relative molecular mass (M
r
):
-Mass of a molecule of a covalent compound
relative to 1/12 of the mass of a
12
C atom
-Sum of all the A
r of all the constituent atoms
of a molecule
-E.g. M
r
CO
2
= 12 + 2(16)
= 44
Relative Masses
•Relative atomic mass (A
r
):
Average mass of an atom of an element relative
to 1/12 of the mass of a
12
C atom
E.g. A
r
O = 16, A
r
Na = 23 and A
r
S = 32
•Relative isotopic mass:
Mass of an isotope relative to 1/12 of the mass
of a
12
C atom
•Relative atomic mass (A
r
):
Average mass of an atom of an element relative
to 1/12 of the mass of a
12
C atom
E.g. A
r
O = 16, A
r
Na = 23 and A
r
S = 32
•Relative isotopic mass:
Mass of an isotope relative to 1/12 of the mass
of a
12
C atom
Relative Masses
•Relative formula mass:
-Mass of a unit of an ionic compound relative
to 1/12 of the mass of a
12
C atom
-Calculated like M
r
-E.g. Relative formula mass of Na
2
SO
4
= 2(23) + 32 + 4(16)
= 142
•Relative formula mass:
-Mass of a unit of an ionic compound relative
to 1/12 of the mass of a
12
C atom
-Calculated like M
r
-E.g. Relative formula mass of Na
2
SO
4
= 2(23) + 32 + 4(16)
= 142
Instrument: Mass Spectrometry
•A technique to measure the relative mass and
abundance of any atom, molecule or molecular
fragment
•Can be employed to identify
- isotopes of an element
- compounds
- structure of compounds
•A technique to measure the relative mass and
abundance of any atom, molecule or molecular
fragment
•Can be employed to identify
- isotopes of an element
- compounds
- structure of compounds
Mass Spectrometry
•Mass spectrometer
•Mass spectrometer
Mass Spectrometry
•Operation principle
1.Vaporisation
- Sample is injected into the mass
spectrometer and vaporised
- Not required for gasses and volatile liquids
2.Ionisation
- Beam of electrons, emitted from an
electron gun, knocks out electrons from the
sample, making it positively charged
- Most ions formed are of +1 charge because
it is difficult to remove another electron
from the positive ion
•Operation principle
1.Vaporisation
- Sample is injected into the mass
spectrometer and vaporised
- Not required for gasses and volatile liquids
2.Ionisation
- Beam of electrons, emitted from an
electron gun, knocks out electrons from the
sample, making it positively charged
- Most ions formed are of +1 charge because
it is difficult to remove another electron
from the positive ion
Mass Spectrometry
3.Acceleration
Positive ions are accelerated by a negative
electric field, through slits, towards a magnetic field
4.Deflection
- Positive ions are deflected according to
their mass/charge (m/z) ratio
- Mass , deflection ¯
- Charge , deflection
- As z is normally 1, degree of deflection is
effectively dependent on the mass of the ion
3.Acceleration
Positive ions are accelerated by a negative
electric field, through slits, towards a magnetic field
4.Deflection
- Positive ions are deflected according to
their mass/charge (m/z) ratio
- Mass , deflection ¯
- Charge , deflection
- As z is normally 1, degree of deflection is
effectively dependent on the mass of the ion
Mass Spectrometry
5.Detection
- Beam of ions is detected electrically
- Output is usually a graph of abundance Vs m/z
5.Detection
- Beam of ions is detected electrically
- Output is usually a graph of abundance Vs m/z
Mass Spectrometry
•A more detailed account of mass spectrometry
is available in the following webpage
http://www.chemguide.co.uk/analysis/masspec/h
owitworks.html
•A more detailed account of mass spectrometry
is available in the following webpage
http://www.chemguide.co.uk/analysis/masspec/h
owitworks.html
Mass Spectrometry
Sample Problem:
Ag has two naturally occurring isotopes, i.e.
107
Ag and
109
Ag. Given the mass spectrometric
data below, calculate the A
r
of silver.
Isotope Relative
isotopic mass
Abundance
(%)
107
Ag 106.91 51.84
109
Ag 108.90 48.16
Sample Problem:
Ag has two naturally occurring isotopes, i.e.
107
Ag and
109
Ag. Given the mass spectrometric
data below, calculate the A
r
of silver.
Isotope Relative
isotopic mass
Abundance
(%)
107
Ag 106.91 51.84
109
Ag 108.90 48.16
Mass Spectrometry
Solution:
A
r
Ag = [(51.84 ´ 106.91) + (48.16 ´ 108.90)] / 100
= 107.87 amu
Solution:
A
r
Ag = [(51.84 ´ 106.91) + (48.16 ´ 108.90)] / 100
= 107.87 amu
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