Chemistry: Atoms, Molecules, and Compounds PDF

Summary

This document provides a basic overview of the structure of matter, focusing on atoms, molecules, and the formation of compounds. It explains the concept of elements and compounds, and discusses different types of substances, also different types of particles and the bonding between them. It also introduces the terminology of different chemical reactions.

Full Transcript

Recall that all matter is composed of atoms and has mass

- The particles which make up atoms are called protons, Neutrons and
electrons.
- protons and neutrons are found in the nucleus of the atom.
- Particles called electrons orbit around the nucleus. They have a negative
charge.
- The smallest particle in the atom is the electron. It is about 1840 times
smaller than the proton and neutron.
- Atoms are normally stable because they have the same number of
protons and electrons.
- Atoms with the same number of protons but different numbers of neutrons
are called isotopes

Different types of particles: atoms and molecules
atoms: are the smallest particles into which matter can be broken down
Molecules: contain two or more atoms held together by chemical bonds

Different types of substances: mixtures and pure substances
mixtures: are impure substances – they have two or more different types of particles, which
can be separated using physical separation techniques (e.g. filtration etc.) as they are not
chemically bonded together
pure substances contain only one type of particle – as their particles are all identical, they
can’t be separated into simpler substances using physical techniques.

Different types of pure substances: elements and compounds
an element is the simplest type of substance, containing one type of atom only
a compound contains two or more types of atom, as it is made up of two or more elements
chemically bonded together – to separate it into its component elements, chemical processes
must be used to break these bonds.

Particles of elements and compounds:
an element’s particles can be either single atoms, or molecules containing identical atoms
(e.g. oxygen molecules, O2)
compounds are never made up of single atoms – their molecules contain atoms of the
component elements bonded together in the same proportion, shown by its formula (e.g.
water molecules contain 2 hydrogen atoms bonded to 1 oxygen atom, shown by the formula
H2O).
Number of neutrons = Mass number - protons
 Elements gain or lose electrons to attain a full outer shell. Therefore atoms which
do not have a full outer shell will react with other atoms to become stable.
In these chemical reactions atoms will give up or accept electrons to/from other
atoms to obtain a complete outer shell like the Noble gases in group 8. The result
is a stable compound.
When an atom gains or loses electrons it becomes a charged atom called an ion.
Many atoms form ions when they take part in chemical reactions.
The charge on the atom is called valency.

Ionic compounds form when metallic elements bond with non-metallic elements.
Metal atoms tend to lose electrons to form positive ions when they react with
non-metals to form compounds.
Non-metal atoms tend to gain electrons to form negative ions when they react with
metals to form compounds.

Identify a range of compounds using their common names and chemical
formulae

Ionic compounds are normally a combination of a metal, along with one or more non
metals. The names given to the ionic compounds start with the metal. The rest of the
name depends on the non-metals present.

The ionic compound formed when iron reacts with oxygen is called iron oxide. This
type of compound is known as an oxide.

In a similar way, ionic compounds that contain a metal and the single non-metal
fluorine are known as fluorides. Therefore, a compound made by the reaction
between iron and fluorine would be called iron fluoride.

Table 1 shows the types of compounds formed by some other non-metals.
Remember – these names are used only if one single non-metal is present.

Single Type of
non-metal compound

Oxygen Oxide

Fluorine Fluoride

Sulfur Sulfide

Chlorine Chloride

Bromine Bromide

Iodine Iodide
 Hydrogen Hydride

Other ionic compounds have more than one non-metal. For example, the element lead
might react with both sulfur and oxygen to form the compound lead sulfate.

The fact that this compound ends with ‘ate’ tells us that it must contain oxygen.
Examples of compounds containing oxygen and one other non-metal are shown in table
2.

Non-metals Type of
included compound

Sulfur and Oxygen Sulfate

Carbon and Oxygen Carbonate

Nitrogen and Nitrate
Oxygen

Chlorine and Oxygen Chlorate

The last types of ionic compounds we are going to consider include a metal, and a group
of nonmetals. If the group contains just hydrogen and oxygen then a hydroxide is
formed (not a hydrate, as you might expect). If the group contains hydrogen, carbon
and oxygen then a hydrogen carbonate is formed.

Classify compounds into groups based on common chemical characteristics -
including acids, bases and salts

Acids are substances that can donate a proton (H⁺ ion) or accept an electron pair
Bases are substances that can accept protons (H⁺ ions) or donate an electron
pair, often producing OH⁻ ions in solution.
Salts are ionic compounds formed by the neutralization reaction between an acid
and a base.

Blue litmus turns red in acid
Red litmus turns blue in base
pH paper changes colour in acids and bases and must be compared to a colour chart
to read pH
Universal indicator changes colour in acids and bases and must be compared to a
Universal indicator colour chart to read pH

Alkali: a base that dissolves in water
alkaline solution: a solution that contains a base
An indicator is a substance that changes colour in the presence of an acid or a base.

pH: a measure of how alkali or acidic a solution is
Neutral pH: 7

Acid: any substance that forms an aqueous solution with a pH less than 7
Base: any substance with a pH greater than 7

Alkalis are a subgroup of a Base
- A base that desloves in water to form a solution greater than 7

- A chemical test for an acid is to add metal carbonate to it, the evolution of bubbles of
carbon dioxide is evidence that an acid was used

Investigate a range of types of important chemical reactions that occur in
non-living systems including:
○ the reaction of acids with metals

Acid + metal → salt + hydrogen

- To test for hydrogen we do a “pop test”, which is when a burning splint held near to the top
of the test tube. The positive result is a squeaky pop sound as the hydrogen reacts with
oxygen in the air in a small explosion.

Example:
- Hydrochloric acid + potassium hydroxide → potassium chloride + water

○ the reaction of acids with carbonates

Carbonate + acid = water + salt + carbon dioxide

To confirm carbon dioxide has been formed, the gass from the substance is
passed through lime water (a solution of calcium hydroxide and water)
- After a few seconds, the water should become a white, milky colour

○ neutralisation
Acid + base → salt + water

Example:
Hydrochloric acid + sodium hydroxide → sodium chloride + water

- The strength of both the acid and the base are lowered
- They are brought to a neutral point

Construct word equations from observations and written descriptions of a range
of chemical reactions

- Metal and Acid Reactions
When a metal reacts with an acid, it typically produces a salt and hydrogen gas.
- Observation: Bubbles form as zinc metal is added to hydrochloric
acid.
- Word Equation: Zinc + Hydrochloric acid → Zinc chloride + Hydrogen
gas

- Acid and Carbonate Reactions
An acid reacting with a carbonate produces a salt, water, and carbon dioxide gas.
- Observation: Effervescence (fizzing) occurs as calcium carbonate is
added to hydrochloric acid.
- Word Equation: Calcium carbonate + Hydrochloric acid → Calcium
chloride + Water + Carbon dioxide

- Acid and Base
An acid reacting with a base produces a salt and water.

- Observation: When sodium hydroxide is added to hydrochloric acid,
the solution becomes neutral.
- Word Equation: Sodium hydroxide + Hydrochloric acid → Sodium
chloride + Water

QUESTIONS

Name the compounds formed when these pairs of elements react together (no other
elements are involved in the reaction).

a. iron and chlorine →
b. lead and oxygen →
c. calcium and fluorine →
d. bromine and aluminium →
e. sulfur and potassium →
f. copper and oxygen →
g. hydrogen and sodium →
h. magnesium and bromine →
i. fluorine and silver →
j. nickel and chlorine →

Name the compounds formed when these elements react together.

a. copper, sulfur and oxygen → ______________________________
b. lead, oxygen and nitrogen → ______________________________
c. oxygen, potassium and carbon → ______________________________
d. zinc, nitrogen and oxygen → ______________________________
e. oxygen, aluminium and sulfur → ______________________________

Name the compounds formed when these elements bond together.
1. calcium, hydrogen and oxygen → __________________
2. sodium hydrogen, carbon and oxygen → __________________
3. potassium, hydrogen, carbon and oxygen → __________________
4. potassium, hydrogen and oxygen → __________________

Name the compounds formed by these sets of elements
a. lead and chlorine → __________________________________
b. iron, nitrogen and oxygen → __________________________________
c. lithium and fluorine → __________________________________
d. sodium, hydrogen and oxygen → __________________________________
e. sulfur, potassium and oxygen → __________________________________
f. zinc and oxygen → __________________________________
g. hydrogen, sodium, carbon and oxygen → __________________________________
h. lead and bromine → __________________________________
i. carbon, silver and oxygen → __________________________________
j. iron and sulfur → __________________________________
k. oxygen, hydrogen and lithium → __________________________________
l. silver and iodine → __________________________________
m. magnesium, nitrogen and oxygen → __________________________________
n. calcium and fluorine → __________________________________
o. calcium, hydrogen, carbon and oxygen → __________________________________

Sodium carbonate +Hydrochloric acid →

Potassium carbonate + Hydrochloric acid →

Magnesium carbonate + Hydrochloric acid →

Nitric acid + copper carbonate →

1. Hydrochloric acid + barium carbonate →
2. Hydrochloric acid + magnesium carbonate →
3. Hydrochloric acid + potassium carbonate →
4. Nitric acid + beryllium carbonate →
5. Nitric acid + lithium carbonate →
6. Nitric acid + calcium carbonate →
7. Sulfuric acid + copper carbonate →
8. Sulfuric acid + zinc carbonate →
9. Sulfuric acid + iron carbonate →