View
352
Download
0
Category
Tags:
Preview:
Citation preview
Chapter 5 The Periodic Table
•Section 5.1 Organizing the Elements•Section 5.2 The Modern Periodic Table•Section 5.3 Representative Groups
Section 5.1 Organizing the Elements
• The Search for Order• The placement of elements on the
periodic table reveals the link between the atomic structure of elements and their properties.
Section 5.1 Organizing the Elements• The Search for Order
• As # of known elements grew, the need to organize them did also.
• Antoine Lavoisier (1789), French chemist: grouped known elements into categories: metals, nonmetals, gases, and earths
• Dmitri Mendeleev, Russian chemist/teacher: found a way to organize the elements
Section 5.1 Organizing the Elements
• Mendeleev’s Periodic Table: Mendeleev’s Proposal
• Used deck of cards (4 columns); break the elements into rows
• Key Concept: Mendeleev arranged the elements into rows in order of increasing mass so that elements with similar properties were in the same column.
Section 5.1 Organizing the Elements
• Mendeleev’s Proposal• Periodic table-an arrangement of
elements in columns, based on a set of properties that repeat from row to row
Section 5.1: Organizing the Elements
• Mendeleev’s Prediction• Some elements that had not been
discovered yet, he left spaces for; also predicted the properties for them
Mendeleev’s Table of Elements (1872)
Figure 3
Section 5.1 Organizing the Elements
• Evidence Supporting Mendeleev’s Table• Key Concept: The close match between
Mendeleev’s predictions and the actual properties of new elements showed how useful his periodic table could be.
Section 5.1 Organizing the Elements
• Evidence Supporting Mendeleev’s Table• With the periodic table, chemists could
do more than predict properties of new elements
• They could explain the chemical behavior of different groups of elements
Section 5.2 The Modern Periodic Table
• The Periodic Law• You can use the modern periodic table
to classify elements and to compare their properties.
• Key Concept: In the modern periodic table, elements are arranged by increasing atomic number (# of protons)
Periodic Table of ElementsFigure 7
Section 5.2 The Modern Periodic Table
• The Periodic Law: Periods• Period-each row in the table of elements• # of elements per period varies b/c # of
orbitals increases from energy level to energy level
• Ex. Period 1 (H and He); Period 2 (Li, Be, B, C, N, O, F, and Ne)
Section 5.2 The Modern Periodic Table
• The Periodic Law: Groups• Group-each column on the periodic
table• Key Concept: Properties of elements
repeat in a predictable way when atomic numbers are used to arrange elements into groups.
Section 5.2 The Modern Periodic Table
• The Periodic Law: Groups• Elements in group have same electron
configuration• **Electron configuration determines
element’s chemical properties• Members of a group have similar
chemical properties• Periodic law-pattern of repeating
properties
Section 5.2 The Modern Periodic Table
• Atomic Mass• Key Concept: Atomic mass is a value
that depends on the distribution of an element’s isotopes in nature and the masses of those isotopes.
Section 5.2 The Modern Periodic Table
• Atomic Mass: Atomic Mass Units• To have a simple way to compare the
masses of atoms, scientists chose 1 isotope to serve as a standard.
• Assigned 12 atomic units to carbon-12 atom (6 protons and 6 neutrons)
• **Atomic mass unit (amu)-one twelfth of a carbon-12 atom
Section 5.2 The Modern Periodic Table
• Atomic Mass: Isotopes of Chlorine and Weighted Averages
• Most elements exist in nature exist as a mix of 2 or more isotopes.
• 2 natural isotopes of chlorine (Chlorine-35 and Chlorine-37); Chlorine 37 has more neutrons (greater mass)
• Atomic mass of 35.453; atomic masses of the isotopes get averaged together
Isotopes of Chlorine
Figure 9
Section 5.2 The Modern Periodic Table• Classes of Elements
• Periodic table- 3 ways to classify elements1. Solids (black), liquids (purple), or gases (red)2. Elements are divided into those that occur
naturally (1-92) and those that don’t (93 and higher)
3. Based on general properties: Key Concept: Elements are classified as metals, nonmetals, and metalloids.
Periodic Table of ElementsFigure 7
Section 5.2 The Modern Periodic Table
• Classes of Elements: Metals (Blue)• Def.-elements that are good conductors of
electric current and heat.• Majority of elements are metals.• Some extremely reactive, some don’t react
easily• Transition metals (Groups 3-12)-elements that
form a bridge b/t the elements on the left and right sides of the periodic table
Section 5.2 The Modern Periodic Table
• Classes of Elements: Nonmetals (Yellow/Orange)
• Have properties opposite of metals• Def.-elements that are poor conductors
of heat and electric current• Have low boiling points=many are gas
at room temp.
Section 5.2 The Modern Periodic Table
• Classes of Elements: Metalloids (Green)• Def.-elements with properties that fall
between those of metals and nonmetals• Ability to conduct electric current varies
with temperature.
Section 5.2 The Modern Periodic Table
• Variation Across a Period• Key Concept: Across a period (row)
from left to right, the elements become less metallic and more nonmetallic in their properties.
• Most reactive metals-left side• Most reactive nonmetals-right side
Periodic Table of Elements
Figure 7
Section 5.3 Representative Groups
• Valence Electrons• The # of an A group matches the # of
valence electrons in an electron configuration for an element in that group.
• Def.-an electron that is in the highest occupied energy level of an atom
Section 5.3 Representative Groups
• Valence Electrons• Valence electrons play a key role in chemical
reactions.• **Properties vary across a period (row) b/c the
number of valence electrons increases from left to right.
• Key Concept: Elements in a group have similar properties because they have the same number of valence electrons.
Periodic Table of ElementsFigure 7
Section 5.3 Representative Groups
• The Alkali Metals-Group 1A• Li, Na, K, Rb, Cs, Fr• Have one valence electron • Are extremely reactive; found in nature
only as compounds• Key Concept: The reactivity of alkali
metals increases from the top of Group 1A to the bottom.
Section 5.3 Representative Groups
• The Alkaline Earth Metals-Group 2A• Be, Mg, Ca, Sr, Ba, Ra• Have 2 valence electrons• Harder than Group 1A metals• Key Concept: Differences in reactivity among
the alkaline earth metals are shown by the ways they react with water (ex. Ca, Sr, Ba-cold water) and (Mg-hot water)
• Mg & Ca-essential for biological functions and provide materials used in construction and transportation
Section 5.3 Representative Groups
• The Boron Family-Group 3A• Have 3 valence electrons• B, Al, Ga, In, Tl• Key Concept: Aluminum is the most
abundant metal in Earth’s crust.• Al-car parts, packaging, airplanes• B-glass that does not shatter easily w/
rapid temp. change (lab glassware)
Section 5.3 Representative Groups
• The Carbon Family-Group 4A• C, Si, Ge, Sn, Pb• Have 4 valence electrons• Metallic nature of group increases from top to
bottom (conductivity)• Life on Earth would not exist w/o Carbon• Key Concept: Except for water, most of the
compounds in your body contain carbon.• Silicon-the 2nd most abundant element in the
Earth’s crust
Section 5.3 Representative Groups
• The Nitrogen Family-Group 5A• N, P, As, Sb, Bi• Have 5 valence electrons• Includes elements w/ wide range of
physical properties• N & P-most important• Key Concept: Besides nitrogen,
fertilizers often contain phosphorus.
Section 5.3 Representative Groups
• The Oxygen Family-Group 6A• O, S, Se, Te, Po• Have 6 valence electrons• Key Concept: Oxygen is the most
abundant element in the Earth’s crust.• Complex forms of life need O to live.• Ex. Oxygen tanks, ozone layer• S-used in fertilizers
Section 5.3 Representative Groups
• The Halogens-Group 7A• F, Cl, Br, I, At• Have 7 valence electrons• Key Concept: Despite their physical
differences, the halogens have similar chemical properties. Pg. 144
• Highly reactive nonmetals; reactivity decreases from top to bottom (F)
• F-prevents tooth decay, Cl-kills bacteria, and I-thyroid gland function
Section 5.3 Representative Groups
• The Noble Gases-Group 8A• He, Ne, Ar, Kr, Xe, Rn• He has 2 valence electrons; all other have 8
valence electrons• Key Concept: The noble gases are colorless
and odorless and extremely unreactive.• Ex. Argon-light bulbs; all are used in neon
lights except Radon• He-pink, Ne orange-red, Ar-lavender, Kr-white,
Xe-blue
Recommended