2: atoms, elements, and the periodic table part 1: the atomic model
TRANSCRIPT
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Atoms, Elements, and the Periodic Table
Part 1: The Atomic Model
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Atomic Theory Timeline
The atomic model has changed over time.
For over two centuries, scientists have created different models of the atom.
As scientists have learned more and more about atoms, the atomic
model has changed.
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Atomic Theory Timeline
Here is a timeline of some of the major ideas.
Dalton Thomson Rutherford Chadwick Bohr Modern
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But First, Democritus! Democritus was a Greek philosopher (470-380
B.C.) who is the father of modern atomic thought.
He proposed that matter could NOT be divided into smaller pieces forever.
He claimed that matter was made of small, hard particles
that he called “atomos”
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John Dalton - 1808
John Dalton created the very first atomic theory.
Dalton viewed atoms as tiny, solid balls.
Dalton was an English school teacher who performed many experiments on atoms.
His atomic theory had 4 statements…
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Dalton’s Theory
1. Atoms are tiny, invisible particles.
2. Atoms of one element are all the same.
3. Atoms of different elements are different.
4. Compounds form by combining atoms.
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J.J. Thomson (1897)
J.J. Thomson discovered electrons.
He also proposed the existence of a (+) particle…
His atomic model was known as the “raisin bun model”…
He was the first scientist to show that the atom was made of even smaller things.
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Thomson’s Model
Atoms are made mostly out of (+) charged material, like dough in a bun.
The (-) charged electrons are found inside the (+) dough.
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Ernest Rutherford (1911)
Rutherford discovered protons and the nucleus.
He showed that atoms have (+) particles in the center, and are mostly empty space.
He called these (+) particles protons.
He called the center of atoms the nucleus.
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Rutherford’s Experiment Radioactive material
emits beam of (+) alpha particles
Screen Gold foil
Most particles went right through!
Strangely, some particles are deflected
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Rutherford’s Experiment Gold Nucleus
a a a a
Most α particles went through the gold. The atom is mostly empty space.
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Rutherford’s Experiment
a a a a a a
Some particles deflected and others even bounced back… this was a crazy!
The atom had a very dense (+) center. Rutherford called it the nucleus.
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Niels Bohr (1913)
Niels Bohr improved on Rutherford’s model.
Every atom has a specific number of
electron shells.
He proposed that electrons move around the nucleus in specific layers, or shells.
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James Chadwick (1932)
Chadwick discovered neutrons.
He called these particles neutrons.
Working with Rutherford, he discovered particles with no charge.
Neutrons are also found in the nucleus.
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The Modern Model (1932-)
Work done since 1920 has changed the model.
It is impossible to know where an
electron is at any given time.
The new atomic model has electrons moving around the nucleus in a cloud.
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The Current Atomic Model
Protons
Neutrons
Electrons
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Atomic Theory Timeline
Dalton Thomson Rutherford Chadwick Bohr Modern
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Any Questions?
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Atoms, Elements, and the Periodic Table
Part 2: The Periodic Table
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Remember!
There are ≈ 110 different elements in the universe.
The Periodic Table of Elements organizes these 110 elements in a simple way.
Elements differ from each other by the # of protons, neutrons and electrons they have.
Periodic Table
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It was very difficult to find information on any
element AND to predict how each element would react.
Before the Table
Before the Periodic Table was invented, the field of Chemistry was a gigantic mess!
The known elements were not organized in any way.
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Before the Table
A Russian scientist named Dmitri Mendeleev discovered patterns in the properties of the elements.
In 1869, I was writing a Chemistry textbook. I wanted to invent a simple way to remember the 60 elements that we knew about…
In 1869, our knowledge of elements was limited. But we knew the atomic weight, physical properties and reactivity of each element.
I placed the elements in order of increasing atomic weight. When I did that, I noticed patterns in their
properties and their reactivity.
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I put the first 7 known elements in a row by increasing atomic weight…
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I put the first 7 known elements in a row by increasing atomic weight… Then I put the next 7 in a new row, and filled rest of the table like that.
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Then I put the next 7 in a new row, and filled rest of the table like that.
I left gaps for elements that I predicted would be discovered.
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I left gaps for elements that I predicted would be discovered. Elements in the same column share
similar chemical properties.
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Elements in the same column share similar chemical properties. This allowed me to even predict the properties of the unknown elements.
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The elements were soon found, and they matched my predictions!
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Once protons were discovered, elements were rearranged by atomic number.
Mendeleev’s Table
Mendeleev was amazingly accurate with his table.
The Periodic Table has been updated since then with new elements and information.
Some elements changed spots, making the pattern of properties even more regular.
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The New Table
The new periodic table has over 100 squares.
Each square shows the element’s name, symbol, atomic number and atomic mass…
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Element Information
Take the element Helium, for example:
2
4
He Helium
Atomic Number (p)
Element Symbol
Element Name
Mass Number (p + n)
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Elements organized by increasing atomic number. A row is called a “period”.
A column is called a “group”.
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Elements in the same group have similar properties.
The groups are numbered from left to right.
1
2
3 4 5 6 7 8 9 10 11 12
14 13 15 16 17 18
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Groups
Each group is also called a “family” of elements.
Just like members of the same family, they share similar characteristics.
Each element family has a unique name as well!
Let’s look at them now…
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Gp 1 - Alkali Metals
Groups
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Sodium (Na)
Gp 1: Alkali Metals
HIGHLY reactive metals.
They are so reactive that they are never found
uncombined in nature.
Metals soft enough to be cut with a butter knife!
e.g. Li, Na, K
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Gp 2 – Alkaline Earth Metals
Groups
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Calcium (Ca)
Gp 2: Alkaline Earth Metals
Fairly reactive metals.
Not as reactive as the Alkali Metals, but still never found
uncombined in nature.
Serve as important minerals for our body.
e.g. Be, Mg, Ca
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Gps 3-12 – Transition Metals
Groups
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Nickel (Ni) Gold (Au)
Gp 3-12: Transition Metals
Less reactive metals.
Hard, dense metals that are useful as building materials,
jewellery and coins.
Also used as oxides to make paints and pigments.
e.g. Fe, Cu, Au, Ag
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Gp 17 - Halogens
Groups
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Gp 18 – Noble Gases
Groups
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Neon (Ne)
Gp 18: Noble Gases
Unreactive gases.
Do not react naturally – always found on their
own in nature.
Used in “neon” signs, balloons and light bulbs.
e.g. He, Ne, Ar
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Any Questions?
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Atoms, Elements, and the Periodic Table
Part 3: Isotopes
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So, each element has a unique atomic number.
Review
Each element has a unique # of protons.
Every single atom of that element must have the same number of protons.
6
12
C Carbon
Atomic Number (p)
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This gives an isotope a different mass number.
Isotopes
Atoms of one element must have the same # of protons, but can have a different # of neutrons.
Isotopes are atoms with the same # of protons and a different # of neutrons.
6
12
C Carbon
6
14
C Carbon
Mass Number (p + n)
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Each has 8 protons: that’s why it’s oxygen!
An Example
There are 3 isotopes of oxygen:
8
17
O Oxygen
8
16
O Oxygen
8
18
O Oxygen
How many neutrons does each isotope have?
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Each has 8 protons: that’s why it’s oxygen!
An Example
There are 3 isotopes of oxygen:
8
17
O Oxygen
8
16
O Oxygen
8
18
O Oxygen
How many neutrons does each isotope have?
8 neutrons
9 neutrons
10 neutrons
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A Second Example
There are 3 isotopes of carbon:
6
13
C Carbon
6
12
C Carbon
6
14
C Carbon
How many neutrons does each isotope have?
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A Second Example
There are 3 isotopes of carbon:
6
13
C Carbon
6
12
C Carbon
6
14
C Carbon
How many neutrons does each isotope have?
4 neutrons
5 neutrons
6 neutrons
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Lets’s look at an example….
Why Decimals?
Mass numbers are normally decimals.
6
12.001
C Carbon
Mass numbers are decimals because some
isotopes are more common than others.
Why is this?
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When you average out all of the masses, you get a number close to 12, but not exactly!
Why Decimals?
In the universe, there is much more C-12 than C-13 and C-14 isotopes.
6
12.001
C Carbon
The mass # is always
closest to the most
common isotope.
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What’s the most common oxygen isotope?
An Example
The mass number of oxygen is 15.999
8
17
O Oxygen
8
16
O Oxygen
8
18
O Oxygen
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What’s the most common oxygen isotope?
An Example
The mass number of oxygen is 15.999
8
17
O Oxygen
8
16
O Oxygen
8
18
O Oxygen
This is because 15.999 is closest to O-16.
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What is the most common chlorine isotope?
Another Example
The mass number of chlorine 35.45
17
35
Cl Chlorine
17
36
Cl Chlorine
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What is the most common chlorine isotope?
Another Example
The mass number of chlorine 35.45
17
35
Cl Chlorine
17
36
Cl Chlorine
Chlorine is found in roughly equal amounts.
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Any Questions?