CHEM98-F23-Lecture2.pdf

Full Transcript

CHEM 98
Atoms and the Periodic Table
Reference
Outline
Fundamentals of General, Organic, and Biological Chemistry
8th Edition
McMurry, Ballantine, Hoeger, Peterson
Chapter 2

2.1 Atomic Theory and the Structure of Atoms
2.2 Elements and Atomic Number
2.3 Isotopes and Atomic Weight
2.4 The Periodic Table
2.5 Some Characteristics of Different Groups
2.6 Electronic Structure of Atoms
2.7 Electron Configurations
2.8 Electron Configurations and the Periodic Table
2.9 Electron-Dot Symbols
 2.1 Atomic Theory and the Structure of Atoms

The Atom
Smallest particle that an
element can be divided into
and still be identifiable
From the Greek atomos,
meaning “indivisible.” Looks cool, but not
really the correct
depiction of an atom
 2.1 Atomic Theory
Atomic Theory
Chemistry is founded on four assumptions:
1. All matter is composed of atoms.
2. The atoms of a given element differ from the atoms
of all other elements.
3. Chemical compounds consist of atoms combined in
specific ratios. Only whole atoms can combine.
4. Chemical reactions change only the way atoms are
combined in compounds.
 2.1 Atomic Theory
Atoms
Composed of tiny subatomic particles called protons,
neutrons, and electrons.
Protons carry a positive electrical charge.
Neutrons have a mass similar to that of a proton, but
are electrically neutral.
Electrons have a mass that is only 1/1,836 that of a
proton and carry a negative electrical charge.
 2.1 Atomic Theory

Masses of atoms and subatomic particles are
expressed on a relative mass scale.
Atomic mass unit (amu):
– Unit for describing the mass of an atom
– Based on the mass of a carbon-12 atom
 2.1 Atomic Theory
Atoms are mostly empty space
Nucleus
– Dense core consisting of protons and neutrons
Area Surrounding Nucleus
– Electrons move rapidly through a 'large' volume of space.
 2.1 Atomic Theory

Relative size of a nucleus in an atom
Similar to a pea in the middle of a
baseball stadium.
 2.1 Atomic Theory
Opposite electrical charges attract each other
– Negatively charged electrons held near positively charged nucleus.

Like charges repel each other
– Electrons try to get as far away from each other as possible.
 2.2 Elements and Atomic Number
Atomic number (Z)
Number of protons in atoms of a given element.
– E.G. Na has 11 protons, Mg has 12 protons
Mass number (A)
Sum of protons and neutrons in an atom.
 2.2 Elements and Atomic Number
In Other Words:
Atomic number (Z) = # of protons
Mass number (A) = # of protons and neutrons

Therefore:
𝑁𝑢𝑚𝑏𝑒𝑟 𝑜𝑓 𝑁𝑒𝑢𝑡𝑟𝑜𝑛𝑠 = 𝑀𝑎𝑠𝑠 𝑁𝑢𝑚𝑏𝑒𝑟 𝐴 − 𝐴𝑡𝑜𝑚𝑖𝑐 𝑁𝑢𝑚𝑏𝑒𝑟 𝑍

Silver (Ag)
– Mass Number (A): 109
– Atomic Number (Z): 47
– Number of Neutrons = 109 – 47 = 62

109
47
Ag
 2.2 Elements and Atomic Number
Atoms are neutral (no net charge)
# of protons (+) = # of electrons (-)

In neutral atoms
– Atomic number (Z) (# of protons) also
equals the number of electrons

E.G. Neutral Carbon, Z = 6, has 6
protons and 6 electrons
 Worked Example 2.1 A
Phosphorus has the atomic number Z = 15.
Z P
How many protons, electrons, and neutrons are there
in phosphorus atoms, which have a mass number A =
31?
It’s recommended that you have a periodic table nearby (either electronically or on
paper) to look at as we talk about trends in the periodic in this lecture
 Worked Example 2.2 A
An atom contains 28 protons and has A = 60. Z ?
Give the number for electrons and neutrons in the atom,
and identify the element.

Ni
 2.3 Isotopes and Atomic Weight
Isotopes
Atoms with identical atomic numbers (Z)
– Same number of protons
But different mass numbers (A)
– Differ in their number of neutrons

Chlorine-35
35 37
Cl Cl
Chlorine-37
Z = 17 (protons) Z = 17 (protons)
A = 35 A = 37
18 neutrons
17 20 neutrons 17
 2.3 Isotopes and Atomic Weight
Isotopes of Hydrogen
Protium, deuterium, and tritium
 2.3 Isotopes and Atomic Weight
A specific isotope is represented by:
– Mass number (A) as a superscript
– Atomic number (Z) as a subscript
– Both in front of the atomic symbol
For example, the symbol for tritium is:
 2.3 Isotopes and Atomic Weight
The isotopes of most elements do not have
distinctive names (unlike hydrogen).

The mass number (A) is given after the name of the
element.

– E.G. Uranium-235 or U-235 (used in nuclear reactors)

– Compared to U-238 (non-radioactive)

Most naturally occurring elements are mixtures of
isotopes.
2.3 Isotopes and Atomic Weight
 2.3 Isotopes and Atomic Weight
Atomic weight
Weighted average mass of an element’s atoms.
Takes isotopic abundance into account

Need to know:
– Individual masses of the naturally occurring isotopes
– Relative percentage of each isotope

Calculated as the sum of the masses of the individual
isotopes for that element.

Atomic weight = Σ[(isotopic abundance) × (isotopic mass)]
 Worked Example 2.3
Gallium
Metal with a very low melting point (29.76 °C)
– Will melt in the palm of your hand
– ‘Disappearing Spoon’ in hot water
Two naturally occurring isotopes:
– 60.4% is Ga-69 (mass = 68.9257 amu)
– 39.6% is Ga-71 (mass = 70.9248 amu)
Calculate the atomic weight for gallium
 Worked Example 2.4
Identify element X in the symbol:
Give its:
– Atomic number
– Mass number
194
X
– Number of protons
– Number of electrons
– Number of neutrons. 78
 2.4 The Periodic Table
Periodic table:
A tabular format listing all known elements
Atomic symbol, name of the element, and atomic mass
are given in each box that represents the element
 2.4 The Periodic Table
Dmitri Mendeleev
Produced the forerunner of the modern periodic
table

Boxes for each element with the symbol, atomic
number, and atomic weight.
2.4 The Periodic Table
 2.4 The Periodic Table
Elements can be classified by
Physical Properties
Chemical Behaviour
 2.4 The Periodic Table
Physical Properties:

Metal:
– Malleable element
– Lustrous appearance
– Good conductor of heat and electricity
– Metals occur on the left side of the periodic table.
Sodium Magnesium
Metal Metal
 2.4 The Periodic Table
Nonmetal:
– Element that is a poor conductor of heat and electricity
– Nonmetals occur on the upper-right side of the periodic
table.

Sulphur
 2.4 The Periodic Table
Metalloid:
– Elements whose properties are intermediate between
those of a metal and a nonmetal
– Metalloids are located in a zigzag band between the
metals on the left and nonmetals on the upper-right side
of the periodic table.
 2.4 The Periodic Table

Elements can also be classified by chemical behavior.

Elements in the same vertical column (group)
– Similar chemical properties
– Can be categorized into the following three groups:
– Main group elements
– Transition metal elements
– Inner transition metal elements