1. Bell work Challenge Winning Group Will Earn +10 Test Points
People have been interested in understanding matter and its structure for thousands of years.
In your groups/tables, come up with a method or plan to identify matter and its structure. (hint: come up with ways to try to discover subatomic particles like protons, electrons and neutrons.)
Winning Group Will Earn +10 Test Points

2. History of Atomic Structure

3. Guiding Questions
List the Scientists involved in our modern atomic theory and their contributions.
Which subatomic particle was discovered first?
What did Ernest Rutherford’s Experiment prove?
Compare and contrast Dalton’s ideas vs. Democritus’ ideas.

4. Ancient Philosophy Who: Aristotle, Democritus
When: More than 2000 years ago
Where: Greece
What: Aristotle believed in 4 elements: Earth, Air, Fire, and Water. Democritus believed that matter was made of small particles he named “atoms”.
Why: Aristotle and Democritus used observation and inference to explain the existence of everything.

5. Democritus Matter is composed of empty space through which atoms move.
Atoms are solid, homogeneous, indestructible, and indivisible.
Different kinds of atoms have different sizes and shapes.
The differing properties of matter are due to the size, shape, and movement of atoms.
Apparent changes in matter result from changes in the groupings of atoms and not from changes in the atoms themselves.

6. Democritus
Aristotle

7. Alchemists Who: European Scientists When: 800 – 900 years ago
Where: Europe
What: Their work developed into what is now modern chemistry.
Why: Trying to change ordinary materials into gold.

8. Alchemic Symbols

9. Particle Theory Who: John Dalton When: 1808 Where: England
What: Described atoms as tiny particles that could not be divided. Thought each element was made of its own kind of atom.
Why: Building on the ideas of Democritus in ancient Greece.

10. Dalton
Atoms of an element are not changed into atoms of a different element by chemical reactions; atoms are neither created nor destroyed in chemical reactions.
Compounds are formed when atoms of more than one element combine; a given compound always has the same relative number and kind of atoms.

11. John Dalton

12. Discovery of Electrons
Who: J. J. Thompson
When: 1897
Where: England
What: Thompson discovered that electrons were smaller particles of an atom and were negatively charged.
Why: Thompson knew atoms were neutrally charged, but couldn’t find the positive particle.

13. The Atom, circa 1900: “Plum pudding” model, put forward by Thompson.
Positive sphere of matter with negative electrons imbedded in it.
In 1911 Ernest Rutherford became interested in studying how positively charged alpha particles interacted with solid matter. He designed a famous experiment sometimes referred to as “gold foil experiment”

14. Plum
Pudding

15. J. J. Thompson

16. Atomic Structure I Who: Ernest Rutherford When: 1911 Where: England
What: Conducted an experiment to isolate the positive particles in an atom. Decided that the atoms were mostly empty space, but had a dense central core.
Why: He knew that atoms had positive and negative particles, but could not decide how they were arranged.

17. Discovery of the Nucleus
Ernest Rutherford shot  particles at a thin sheet of gold foil and observed the pattern of scatter of the particles.

18. The Nuclear Atom
Since some particles were deflected at large angles, Thompson’s model could not be correct.
This experiment suggested that the atom had a core of some sort – what we now call the nucleus

19. THE NUCLEAR MODEL
According to Rutherford, most of the atom consists of electrons moving rapidly through empty space and a very dense, positively charged nucleus.
Put the size of the nucleus in perspective; green pea in the center of a football field would be the nucleus and the rest of the field would be the “electron” space.

20. Ernest Rutherford

21. Other Subatomic Particles
By 1920 , Rutherford had refined his concept of the nucleus: He concluded that the very dense nucleus contained positively particles called protons.
James Chadwick, a coworker, showed that the nucleus also contained a neutral particle in This was the neutron – a particle with nearly equal mass as a proton.

22. Atomic Structure II Who: Niels Bohr When: 1913 Where: England
What: Proposed that electrons traveled in fixed paths around the nucleus. Scientists still use the Bohr model to show the number of electrons in each orbit around the nucleus.
Why: Bohr was trying to show why the negative electrons were not sucked into the nucleus of the atom.

23. Bohr Model

24. THE BOHR MODEL

25. Niels Bohr

26. Electron Cloud Model
Electrons travel around the nucleus in random orbits.
Scientists cannot predict where they will be at any given moment.
Electrons travel so fast, they appear to form a “cloud” around the nucleus.

27.                                  
Electron Cloud Model

28. Atomic Structure Timeline
Requirements:
Must include a title.
Must include a spot for each of the 7 items.
Must include at least the Who, When, and What.
Must have a picture (color is preferred) for each item.
Options:
Comic book format
Standard timeline

29. Properties of Subatomic Particles
Symbol
Location
Charge
Relative mass
Actual mass (g)
Electron e-
Around nucleus 1– 1
1840
9.11×10-28
Proton p+
Nucleus 1+
1.673×10-24
Neutron n0
nucleus
1.675×10-24
Summary table – copy into notes

30. Atomic Structure and the Periodic Table
Atomic number = # protons 14 Si
28.086
Silicon
Symbol
Name
Atomic Mass: Round to a whole #:
28 = Relative mass of nucleus
14 = # protons
14 = # neutrons

31. Practice From the Periodic Table
Complete the following chart:
Name
Symbol
Relative mass
# protons
# neutrons
# electrons
Lithium Mg 26 16