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Classifying matters into elements, compounds, molecules, mixtures and pure substances.
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Jeff Taylor
• Courses:– Physical Science
• Contact [email protected]
Family: Wife Linda and 19-month daughter Hilina
Detailing out travels and hikes on our blog: www.hikemasters.com
andwww.taylorlenz.blogspot.com
Living out of our 22 ft trailer and spending the next 6 months in Desert Southwest.
Unit 2
Mr. Taylor
Classifying Matter
What is Matter Made Of?• Protons: + charge, 1 AMU, in nucleus• Neutrons: neutral charge, 1 AMU, in nucleus• Electrons: - charge, 1/1000th AMU, electron cloud
• The number of protons decides the element number.• The number of electrons decides the ionic/oxidation state.• The number of neutrons decides the isotope
Elements• An element is the most basic form of matter.• It is defined by the number of protons.• Usually, the number protons and the number
of electrons are equal.
Atomic Number is the number of Protons
Atomic Mass is Protons and Neutrons together
Elements• An element is the most basic form of matter.• It is defined by the number of protons.• Usually, the number protons and the number
of electrons are equal.Secret Question #1:Which element is this?
Isotopes
• Isotopes are variations on elements, where the number of neutrons is different.
• Since neutrons are neutral in charge, they do not affect the properties of the element, only the weight.
• This isotope is Lithium-7It has 3 protons and 4 neutrons. If it only had 3 neutrons, it would be Lithium-6
Atomic Number is the number of Protons
Atomic Mass is Protons and Neutrons together
Most Elements Do NOT Occur in the Pure Form
Molecule• A molecule consists of two or more atoms.• They can be the same element (N2)• Or different elements. • CO – carbon monoxide
• C2H4 – ethylene
• C6H12O6 - glucose
Proteins are HUGE Molecules
Compounds• Compounds contain two or more elements.
Compounds
water (dihydrogen oxide) salt (sodium chloride) ammonia (NH4)
rust (iron oxide) chalk (calcium carbonate) sugar (glucose)
Elements
• Elements have only ______ type of atom• Elements are defined by the number of ______.• The whole universe is made from about _____
different elements.• The most common element in the universe is
__________.
*If you are watching by recording, send me these sentences with the answers*
Compounds
• Most elements do ____ exist on their own• They join with other ___________ to form
____________ .• Compounds may have __________ different
types of elements in them.
*If you are watching by recording, send me these sentences with the answers*
Mixtures • Homogeneous or Heterogeneous?• If it is distributed equally it is
homogenous. • If it separates into layers, it is
heterogeneous• Colloids are suspended mixtures that
do not separate. Milk is an example.• Otherwise, over time the layers will
separate, such as mud in a lake.
Solution
• A solution involves a reaction between molecules due to electromagnetic charges. Solutions are by definition transparent.
Solutions and Mixtures Demo
• Notice that they are clear? They are solutions!
Watch Video to See What Happens When They are Mixed
Solutions and Mixtures Demo
• Notice that they are clear? They are solutions!
• Now that it is not clear, it is no longer a solution, but a mixture.
Precipitate• A precipitate are solids that form during a
chemical reaction between two solutions.
Mixtures• Iron and Sulfur powder in a the mixture• So, it is hypothesis time:
How can we separate the iron from the sulfur?
Enter some ideas in the chat box.
Mixtures
• Iron and sulphur – the mixture• How can we separate the iron from the sulphur?• Use a magnet!• Iron is magnetic, sulfur is not...
Turning an iron-sulphur mixture into a Compound
Fe + S FeS Heat
Compounds form as a result of chemical reactions
When iron and sulfur react
+sulfur (S) atoms iron (Fe) atoms
When iron and sulfur react
+sulfur (S) atoms iron (Fe) atoms
iron sulfide (FeS) molecules
Differences between compounds and mixtures
MIXTURES COMPOUNDS
1. Mixtures can be separated easily
1. Compounds can not be separated
Differences between compounds and mixtures
MIXTURES COMPOUNDS
1. Mixtures can be separated easily
2. Mixture have the properties of the substances present in it
1. Compounds can not be separated
2. Compounds do not have the properties of the elements
Differences between compounds and mixtures
MIXTURES COMPOUNDS
1. Mixtures can be separated easily
2. Mixture have the properties of the substances present in it
3. No chemical change takes place when a mixture is made
1. Compounds can not be separated
2. Compounds do not have the properties of the elements
3. A compound is always formed due to a chemical reaction
Differences between compounds and mixtures
MIXTURES COMPOUNDS
1. Mixtures can be separated easily
2. Mixture have the properties of the substances present in it
3. No chemical change takes place when a mixture is made
4. There is no heat taken in or given out when a mixture is made
1. Compounds can not be separated
2. Compounds do not have the properties of the elements
3. A compound is always formed due to a chemical reaction
4. Heat is either taken in or given out when a compound is made
Differences between compounds and mixtures
MIXTURES COMPOUNDS
1. Mixtures can be separated easily
2. Mixture have the properties of the substances present in it
3. No chemical change takes place when a mixture is made
4. There is no heat taken in or given out when a mixture is made
5. A mixture can contain elements in any proportion
1. Compounds can not be separated
2. Compounds do not have the properties of the elements
3. A compound is always formed due to a chemical reaction
4. Heat is either taken in or given out when a compound is made
5. A compound always contains the elements in fixed proportions, e.g. FeS contains 7g of iron to 4g of sulphur
An Introduction to Pure Sodium Metal
Watch Video That Shows Pure Metallic Sodium
A fun chemical reaction that you SHOULD NOT TRY AT HOME!
Sodium in water = BOOM
2Na + H20 = 2NaOH + H2 + Heat