General Chemistry: Finals Reviewer PDF

Summary

This document is a chemistry review for a final exam. It covers the periodic table, properties of different elements, including metals, nonmetals, and metalloids, and trends in their properties.

Full Transcript

GENERAL CHEMISTRY: FINALS REVIEWER
LESSON 1: Periodic Table ▪ Moseley precisely organized elements by
using an electron gun to shoot them, which
Periodic Table gave off x-rays
- a useful tool for organizing the known The Modern Periodic Table
elements.
Arranged into increasing atomic number from
History of the Periodic Table left to right.
❖ 1808 IUPAC ( International Union of Pure and Applied
John Dalton Chemistry) – updating and monitoring the table of
▪ He theorized that atoms of the same elements.
element are the same. Columns are called groups.
▪ Assigned atomic weights to the first Rows are called periods.
elements discovered. Elements in the same group have similar
▪ 20 elements in the early version of periodic properties.
table Non-metals are to the right.
❖ 1817 Metals are to the left and center.
Johann Dobereiner PERIOD OR SERIES - horizontal rows of the
▪ Law of Triads – he grouped the elements periodic table
into sets of three. GROUPS OR FAMILIES - vertical columns of the
▪ This idea occurred when he found periodic table
strontium's atomic weight between calcium
and barium.
❖ 1864
John Newlands
▪ Law of Octaves - when elements are
arranged by increasing atomic mass, every
eighth element exhibits similar
characteristics
▪ Grouped the elements into 8 – increasing
mass number
❖ 1869
Dmitri Mendeleev
▪ Father of Modern Periodic Table
▪ PERIODICITY - refers to the repeating
patterns in the chemical and physical
properties of elements when arranged by
increasing atomic mass.
▪ Mendeleev arranged 63 elements by atomic
mass, grouping them by similar chemical
and physical properties.
▪ There are gaps for undiscovered elements
❖ 1913
Henry Moseley
▪ X – RAY EXPERIMENTS - rearranged the
elements by increasing atomic number
instead of atomic mass.
 GENERAL CHEMISTRY: FINALS REVIEWER
Classification of Elements (Property) ❖ Representative Elements - The s and p block
elements

Periodic Trends

- are systematic variations in the properties of
elements across the periodic table.
❖ Metallic Property
- is related to an atom's ability to lose an electron

TREND

o top to bottom = increases
❖ Metals
o left to right = decreases
Metals easily lose electrons to form positive
ions (cations) and have low electronegativity,
typically 2.2 and below
PROPERTIES OF METALS
▪ Conductivity: Good conductors of heat
and electricity, thanks to free-moving
electrons.
▪ Malleability: Can be hammered or
rolled into thin sheets without breaking.
▪ Luster: Have a shiny appearance,
reflecting light from smooth surfaces.
▪ Ductility: Can be stretched into wires ❖ Non-Metallic Property
without breaking. - are characteristics of elements that easily gain
❖ Non-metals electrons, resulting in poor conductivity,
Nonmetals are nonconductors of heat and are brittleness, dull appearance, and high
electron acceptors, forming negative ions electronegativity
(anions). They have high electronegativity,
ranging from 2.0 to 4.0. TREND
❖ Metalloids o top to bottom = decreases
Metalloids have properties that are o left to right = increases
intermediate between metals and nonmetals,
with electronegativity ranging from 1.8 to 2.1
Classifications of Elements (Orbital Being Filled Up)

❖ Atomic Size
- is half the distance from the nucleus to the
outermost shell.
 GENERAL CHEMISTRY: FINALS REVIEWER
TREND ❖ Electronegativity
- is the tendency of an atom to attract electrons
o top to bottom = increases
when bonding with another atom
o left to right = decreases
TRENDS

o top to bottom = decreases
o left to right = increases

❖ Ionization Energy
- is the energy required to remove the most
loosely bound electron from an atom to form a
cation

TREND
o top to bottom = decreases
o left to right = increases

❖ Electron Affinity
- is the energy released when an atom gains an LESSON: Biomolecules
electron to form an anion
Biomolecules
TREND
- Lipids, nucleic acid, carbohydrates, and proteins
o top to bottom = decreases
- Important for the survival of the living cells
o left to right = increases
Monomers

- Monomers are small, basic molecules that bond
with other monomers to form larger, more
complex molecules called polymers.
❖ Carbohydrates
Carbohydrates are organic compounds made of
carbon, hydrogen, and oxygen, serving as a
 GENERAL CHEMISTRY: FINALS REVIEWER
primary energy source, and include sugars,
starches, and fibers
Monosaccharide – monomer of carbohydrate LESSON 2: Lewis Structure
▪ Ex. glucose, fructose, or galactose Chemical Bonding
Disaccharide - is a carbohydrate made up of
two monosaccharide molecules bonded - A force that holds atoms of elements together
together to form a compound
▪ Ex. sucrose (glucose + fructose), lactose
Valence Electron
(glucose + galactose), or maltose (two
glucose molecules) - electrons that reside in the outermost shell of
Polysaccharide - is a complex carbohydrate an atom
made up of many monosaccharide units linked
together
▪ Ex. starch, glycogen, and cellulose
ELEMENTS PRESENT: Carbon, hydrogen, and
oxygen

❖ Lipids
Lipids are fatty compounds essential for energy
storage, structure, protection, and signaling.
Glycerol and fatty acids are the basic building
blocks of many lipids.
▪ Fatty acids are long hydrocarbon chains
with a carboxyl group at one end. Identifying Valence electrons of an atom (By
▪ Glycerol is a three-carbon molecule that looking at the outermost shell of the element)
binds with three fatty acids to form
EX. OXYGEN ( 1s²2s² 2p⁴ )
triglycerides (fats and oils).
ELEMENTS PRESENT: Carbon, hydrogen, oxygen, - 2s² 2p⁴ is in the
phosphorus, and nitrogen second shell of the
atom which is
❖ Protein Oxygen’s outermost
are large, complex molecules made up of amino shell.
acids - 6 is the valence
Amino acids – monomer of proteins electron of oxygen
are composed of long chains of amino acids
Gilbert Newton Lewis
ELEMENTS PRESENT: Carbon, hydrogen, oxygen,
phosphorus, and nitrogen - Formulated the Octet Rule
❖ Nucleic Acid - He proposed that atoms combine to
Nucleic acids are large biomolecules that store achieve a more stable electron
and transmit genetic information in living configuration.
organisms.
Nucleotides - the monomers of nucleic acids Octet Rule “Rule of Eight”
ELEMENTS PRESENT: Carbon, hydrogen, oxygen,
and nitrogen ▪ Atoms react to acquire a full set of eight
valence electrons, similar to the
electron configuration of noble gases.
 GENERAL CHEMISTRY: FINALS REVIEWER
Lewis Electron Dot Structure

- It consists of the element’s symbol Types of Ions based on the number of Atoms
surrounded by dots, where each dot
represents a valence electron. IONS
MONOATOMIC ION POLYATOMIC ION

-are single atoms that -consist of two or more
can be cations (positive) atoms that carry a charge
or anions (negative), due to the overall loss or
formed by the loss or gain of electrons.
gain of electrons.

Neon (1s²2s² 2p⁶)

- it is STABLE because it has 8 valence electrons
(octet rule)

Writing Lewis Symbol

- Dots are not paired until all sides have a single
dot.
- Each side can hold a maximum of two dots.

EXAMPLE:

Nitrogen: 5 valence electrons

Transferring Electrons

- One way atoms achieve a total of eight
electrons in their outermost energy level

Types of Ions based on Charges

IONS

Losses ē Gains ē
CATION ANION