General Chemistry (GCH 113) Introduction PDF

Summary

This document is an introduction to General Chemistry (GCH 113) at the Chinese University. It covers basic concepts like matter, its properties, classifications, and the associated energy changes. The document references a General Chemistry textbook by Ralph H. Petrucci and William S. Harwood from 2002.

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Faculty of Veterinary Medicine
(Chinese University)

General Chemistry (GCH 113)

Chapter I
Intoduction
Prof.Dr. Wael Abou-Elmagd
 Reference

-General Chemistry: principles and modern applications, Ralph H. Petrucci,
William S. Harwood, 2002, Prentice –Hall.
Chemistry?????????
All of the objects around you—your pen or pencil, and the things of
nature such as rocks, water, plant and animal substances—constitute the
matter of the universe.

Matter is anything that has mass and volume
We can define chemistry as the study of matter and its properties, the
changes that matter undergoes, and the energy associated
with those changes.

matter properties changes energy

Combustion of coal
The Properties of Matter
We learn about matter by observing its properties, the characteristics that
give each substance its unique identity.

To identify a substance, There are two principal ways of classifying
matter: by its physical state as a solid, liquid, or gas and by its
chemical constitution as an element, compound, or mixture.

Physical properties: are those that a substance shows by itself,
without changing into or interacting with another substance.
e.g. colour, melting point, electrical conductivity and density

Center: Sulfur. From upper
right, clockwise:
Arsenic, magnesium,
bismuth,
mercury.
 Classifying matter

Elements Solid

chemical Physical
Compounds Matter Liquid
constitution State

Gas
Mixtures
 There are two ways of classifying matter;
I) by its physical state as a solid, liquid, or gas
A solid is the form of matter characterized by rigidity; a solid is
incompressible and has fixed shape and volume.

A liquid is the form of matter that is a relatively incompressible
fluid; a liquid has a fixed volume but no fixed shape.

A gas is the form of matter that is a easily compressible fluid; a
given quantity of gas will fit into a container of almost any size and
shape.
II) Matter can also be classified by its chemical constitution
as an element, compound, or mixture.

1) An element is a substance that cannot be decomposed by any
chemical reaction into simpler substances.
elements
E.g. Na, H, O

2) A compound is a substance composed of two or more elements
chemically bonded (combined).
E.g. H2O, H2, O2,, NaCl
compounds

The physical and chemical properties of a compound are
different from the properties of its constituent elements.

A pure compound always contains constant proportions of
the elements by mass (Law of constant composition).
 Sodium (Na) Chlorine (Cl) Sodium chloride (NaCl)
shinny a poisonous, Ordinary table salt,
extremely reactive greenish –yellow gas a white unreactive solid.
metal.

The properties of compounds are very different from
those of the elements they contain.

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Compounds are formed of elements through chemical reactions (chemical
change). This change follows the Law of Conservation of Mass
The total mass remains constant during a chemical change (chemical reaction).
E.g.

TOTAL MASS BEFORE REACTION = TOTAL MASS AFTER REACTION
Mass of mercury + Mass of oxygen = mass of mercury oxide
A physical change leads to a different form of the same substance (same
composition),
Water (solid form) → water (liquid form)
Electric
current
A chemical change leads to a different substance (different composition).
Water → hydrogen gas + oxygen gas
The law of conservation of mass, illustration

AgNO  NaCl AgCl  NaNO
3 3

→

Note: the balance reading (total mass) has not changed despite
change in chemical composition due to reaction.
We use a set of symbols to represent the elements. These symbols can be
written more quickly than names, and they occupy less space. The symbols
consist of either a capital letter or a capital letter and a lowercase letter, such
as C (carbon) or Ca (calcium).
3) A mixture is a material that can be separated by physical means into two or more
substances.

Unlike pure compounds, a mixture has variable composition, so it does not follow
the law of constant composition

mixture

Mixtures are classified into two types.
a) A heterogeneous mixture is a mixture
that consists of physically distinct parts, each
with different properties.
E.g. a mixture of iron filings and copper

b) A homogeneous mixture (also known as a
solution) is a mixture that is uniform in its
properties throughout.
E.g. When sodium chloride (salt) is dissolved in
water, you obtain a homogeneous mixture, or
solution.
 MIXTURES
Mixtures: combinations of two or more substances (components)

Heterogeneous composition, properties, Homogeneous
nonuniform appearance uniform
physical name example physical name example
state of state of
components components
solid - solid mixture sand, alloy, brass,
granite solid - solid solid bronze
solid - liquid suspension Clay- solution
water sugar
solid - gas solution,
smoke tabacco solid - liquid solution
smoke salt
solution
liquid -liquid emulsion milk
liquid - liquid solution petrol
liquid - gas foam soap
foam, fog gas - gas solution air
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SI Base Units and SI Prefixes

In 1960 the General Conference of Weights and Measures adopted the
International System of units (or SI, after the French le Système
International d’Unités), which is a particular choice of metric units. This
system has seven SI base units, the SI units from which all others can be
derived.
 Units for measuring Temperature
t °F = t°C x 1.8 + 32
or t°C = (5/9) [t°F – 32]
t K = t °C + 273.15
or t°C = T K – 273.15

Examples:

The Boiling point of water is
100°C which is equal to:
100x1.8 +32= 212°F ,
100+273.15= 373.15 K.

The melting point of Ice is 0°C
which is equal to:
0x1.8+32 = 32°F ,
0+273.15=273.15K.
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