General Chemistry PDF

Summary

This document provides an introduction to basic concepts in general chemistry, such as atoms, molecules, ions and matter. It explains different phases of matter and physical properties.

Full Transcript

EEN
NEERR A
ALL
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CHHEMIISSTR
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atoms
atoms
The electrons of an atom are found orbiting the
nucleus of the atom
The smallest particle. It is composed of
Electrons have a negative charge.
protons, which have a positive charge, and
neutrons, which have no charge.

molecules
molecules
It is a group of atoms bonded together,
representing the smallest fundamental unit of
a chemical compound that can take part in a
chemical reaction. Phases
Phases of
of matter
matter
Solids have definite:
ions
ions Mass
Is an atom or molecule with a net electric Volume
charge due to the loss or gain of one or more Shape
electrons. Liquid a type of matter with specific properties
what
what is
is matter?
matter?
that make it less rigid than a solid but more rigid
than a gas
Matter is anything that has mass and
Gases have NO definite
volume.
Mass
The definition of matter is often taken to
Volume
mean anything composed of atoms and
Shape
molecules.
Plasma is the form of matter that exists when the
Thus, matter is anything made of
atoms are in an excited state.
protons, neutrons, and electrons.
Stars (the sun is a star) exist in the plasma
The atom is the “building block of
state because of nuclear fusion.
matter”.
Some examples of plasma found on Earth
All substances are composed of invisible
are: lightning, auroras, and neon.
particles called atoms.
Atoms are the building blocks of matter
and are in constant motion.
The combination of atoms leads to
millions of materials with different
properties.

what
what is
is atom?
atom?
Atoms are composed of three types of
particles: protons, neutrons, and
electrons.
Atoms are made up of a positively
charged center, the nucleus, containing:
Protons with a positive charge
Neutrons with no charge (neutral)
Physical
Physical state
state of
of matter
matter
properties
properties The physical form in which a substance
A property of matter that can be observed or exists at room temperature, such as:
measured without changing the identity of the Solid – matter has a definite shape
matter. and volume
Physical properties identify matter. Liquid – matter takes the shape of its
EXAMPLE includes but are not limited into: container and has a definite volume
Density Gas – matter changes in both shape
Malleability and volume
Ductility
thermal
thermal
Solubility
State
conductivity
conductivity
The ability to transfer thermal energy
Thermal Conductivity
from one area to another.
DENSITY
DENSITY EXAMPLE: Plastic foam is a poor conductor, so
a hot drink won’t burn your hand. The inside
Amount of mass in a given volume
of the toaster (hot coils)
A substance is always the same at M
a given pressure and temperature
D V CHEMICAL
CHEMICAL
regardless of the size of the sample properties
properties
of the substance.
The density of one substance is usually A property of matter that describes a
different from that of another substance. substance based on its ability to change
Density equals mass divided by volume. into a new substance with different
properties.
malleability
malleability Can be observed with your senses.
The ability to be pounded into thin sheets. Are Not as easy to observe as physical
EXAMPLE: Aluminum can be rolled or pounded properties
into sheets to make foil. EXAMPLE:
Combustibility - Only when fireworks
DUCTILITY
DUCTILITY explode
The ability to be drawn or pulled into a wire Flammability - Only when wood burns
EXAMPLE: Copper in wiring – soldering wires or Reactivity - Only when iron Oxidizes
joints (rust)
Acids
SOLUBILITY
SOLUBILITY Bases
The ability to dissolve in another substance. Oxidation
Three ways to increase solubility
Heat or make warmer
Grind or smash
Stir or mix
EXAMPLE: sugar or salt dissolve in water
55 signs
signs of
of a
a extensive
chemical extensive property
property
chemical An extensive property is a property that depends
change
change on the amount of matter in a sample. Such as
The only sure way to know there has MASS, LENGTH, SIZE and VOLUME
been a chemical change is the observance The mass of an object is a measure of the amount
of a new substance formed of matter that an object contains. A small sample
Sometimes that is hard to do, so look for of a certain type of matter will have a small mass,
the signs……. while a larger sample will have a greater mass
1.
1. Odor
Odor intensive
intensive property
property
production
production An intensive property depend on the type of
This is an odor far different from what it matter. These include DENSITY, COLOR,
should smell like PHYSICAL STATE, MELTING, BOILING
Ex: Rotting eggs, food in fridge, POINT & FREEZING POINTS, and
decomposing flesh THERMAL CONDUCTIVITY.
Intensive properties may also used to identify a
2.
2. Change
Change in
in substance.
temperature
temperature The electrical conductivity of a substance is a
Exothermic - When energy is released do property that depends only on the type of
during the chemical change ex: wood substance. Silver, gold, and copper are excellent
burning conductors of electricity, while glass and plastic
Endothermic - Energy is absorbed causing are poor conductors. A larger or smaller piece of
a decrease in temperature of the reactant glass will not change this property
material ex: cold pack in first aid kit
Consumer
Consumer
3.
3. Change
Change in
in Products
Products
color
color A Consumer Product is any item often bought for
Ex: fruit changing color when it ripens, consumption. One commonly encountered class
leaves changing color in the Autumn, of consumer products are convenience products -
dying your hair those that appeal to a large segment of the market
or those that are routinely bought.
4.
4. formation
formation Consumer products are something that we
of
of bubbles
bubbles cannot live without. Every activity we do such as
This can indicate the presence of a gas. taking a bath, cooking our favorite dishes, driving
Bubbles produced when boiling water is our cars or monitoring and maintaining our good
not a chemical change. health condition, there will always be a consumer
product that is involved. Those consumer
4.
4. formation
formation of
of products were made possible because of the
a precipitate
a precipitate interactions of Science, Technology and Society.
When two liquids are combined and a
solid is produced
Law
Law of
of 1. The atomic number identifies an element.
Conservation
Conservation The atoms of isotopes of an element have the
of
of Mass
Mass same number of protons and electrons.
In a chemical reaction, no change in mass 2. The atoms of isotopes of an element differ in
takesplace. The total mass of the products is the number of neutrons.
equal to the total mass of the reactant Ions
Ions
DALTON’S
DALTON’S Ions can be made up of only one atom
ATOMIC
ATOMIC THEORY
THEORY (monoatomic) or more than one type of atom
(polyatomic)
1. Matter is made up of extremely small
Monoatomic ions are named based on the
indivisible particles called atoms.
element.
2. Atoms of the same elements are identical,
a. For cations, the name of the element is
and are different from those of other
unchanged. If an element can form two ions
elements.
of different charges, the name, which is
3. Compounds are formed when atoms of
usually derived from its Latin name, is
different elements combine in certain
modified by the suffix –ic for the ion with
whole - number ratios.
the higher charge, and –ous for that with the
4. Atoms rearrange only during a chemical
lower charge.
reaction to form new compounds.
b. For anions, the name of the element is
Relative modified by the suffix –ide.
Particle Location Charge
Mass EXAMPLE: EXAMPLE:
a. Zn2+ a. Br-
Proton Nucleus +1 1
b. Mg2+ b. S2-
Outside c. K+ c. O2-
Electron
nucleus -1 0.0006
d. Fe2+ d. I-
Neutron Nucleus 0 1 e. Fe3+ e. F-
Several anions are polyatomic and are named
Atomic number = number of protons =
based on the atomic constituents and the suffix –
number of electrons in a neutral atom
ide.
Mass number = number of protons +
EXAMPLE:
number of neutron
a. OH- = hydroxide ion
isotopes
isotopes b. CN- = cyanide ion
there are atoms of an element having the same A number of polyatomic anions containing
atomic number but different mass number. oxygen atoms are named based on the root word
The existence of isotopes was shown by mass of the central (or non-oxygen) atom and the suffix
spectroscopy experiments, wherein elements –ate for the one with more oxygen atoms and –
were found to be composed of several types of ite for the one with less oxygen atom.
atoms, each with different masses. EXAMPLE:
a. NO3- – nitrate ion d. SO42- – sulfate ion
b. NO2- – nitrite ion e. PO43- – phosphate ion
c. SO3 2- – sulfite ion
 Some anions have common names ending with EXAMPLE:
the suffix –ate. 1. magnesium fluoride
EXAMPLE: 2. zinc sulfate
a. C2H3O2- – acetate ion 3. aluminum hydroxide
b. C2O4 2- – oxalate ion EXAMPLE:
1. KBr
CHEMICAL
CHEMICAL 2. Pb(NO3)2
FORMULA
FORMULA 3. AgClO3
The formula consists of the symbols of the atoms Molecular compounds – made up of two
making up the molecule. If there is more than non-metals. They are named by giving
one atom present, a numerical subscript is used. the name of the first nonmetal and then
EXAMPLE: that of the second nonmetal modified by
a. O2 – oxygen gas the ending -ide. Molecular compounds
b. H2O – water are usually gase
c. NaOH – sodium hydroxide (liquid Sosa) GREEK PREFIXES
d. HCl – hydrochloric acid (muriatic acid) 1 - mono 6 - hexa
2 - di 7 - hepta
MOLECULAR
MOLECULAR 3- tri 8 - octa
FORMULA
FORMULA 4 - tetra 9 - nona
gives the composition of the molecule, in terms of 5 - penta 10 - deca
the actual number of atoms present.
EXAMPLE:
TERNARY
TERNARY
C6H12O6 COMPOUND
COMPOUND
made up of three elements. The naming
EMPIRICAL
EMPIRICAL of ternary compounds follows the same
FORMULA
FORMULA rule as that of the binary ionic compound:
gives the composition of the molecule, in terms of the name of the cation is given first,
the smallest ratio of the number of atoms present. followed by the name of the anion
EXAMPLE: EXAMPLE:
CH2O a. NaNO3
b. BaCrO4
BINARY
BINARY c. K2SO4
COMPOUND
COMPOUND
made up of two elements. Discuss the rules for
naming in two groups of binary compounds.
Ionic compounds – made up of a cation and an
anion. They are named by giving the name of the
cation first, followed by the name of the anion.
EXAMPLE:
a. NaI (sodium iodide) c. FeS (ferrous sulfide)
b. MgCl2 (Magnesium d. K2O (potassium 0xide)
Chloride)
naming
naming of
of
acids
acids
Acids – yield hydrogen ions in aqueous
solutions
Binary
Binary acids
acids
composed of hydrogen and another
element, usually a nonmetal. The first
part of the name starts with the prefix
hydro- followed by the name of the
element, modified by the ending –ic.
The second part consists of the word
‘acid’. Name = hydro-(root name of
element) -ic + acid
EXAMPLE:
i. HCl (hydrochloric acid)
ii. H2S (hydrosulfuric acid)
iii. HI (hydroiodic acid)

ternary
ternary acids
acids
made up of hydrogen and an anion,
usually containing oxygen. The first part
of the name consists of the root word of
the name of the element, modified by the
ending –ic. The second part consists of
the word ‘acid’. If there is another acid
with the same atoms, the suffix –ous is
used to denote the one with less number
of atoms. Name = (root name of element)
-ic (or –ous) + acid
EXAMPLE:
i. HNO3 (nitrogenic acid)
ii. HNO2 (nitrogenous acid)
iii. H2SO4 (sulfuric acid)
iv. H2SO3 (sulfurous acid)
v. H3PO4 (phosphoric acid)