SCH4U – Atomic Theory Chapter 3 Review

1. History of the Atomic Model:

a.  Explain how the following scientists contributed to the development of the modern atomic theory. Describe their model and explain limitations.

o  Dalton’s Billiard Ball Model

o  Thomson’s Raisin Bun Model

o  Rutherford’s Nuclear Model

o  Bohr’s Planetary Model

b.  Explain Rutherford’s gold foil experiment and it’s significance

c.  Explain atomic spectra and it’s significance to Bohr’s model

2. Quantum Mechanics:

a.  The 4 quantum numbers and what they describe

b.  The difference between orbits (Bohr) and orbitals

c.  Pauli’s exclusion principle (no two electrons have the same 4 quantum #s)

3. Electron Configuration:

a.  Aufbau principle (add electrons to lowest energy orbitals first)

b.  Hund’s rule (1 electron per orbital at an energy level before adding a 2nd)

c.  Draw energy-level diagrams and be able to identify elements/ions from them

d.  Write electron configuration (long and short) and be able to recognize an atom/ion

4. Wave Mechanics

a.  Wave/particle duality

b.  Heisenberg’s Uncertainty principle à Schrodinger’s equation

c.  Recognize the shapes of s, p, and d orbitals

SCH4U – Atomic Theory Chapter 3 Review

1. History of the Atomic Model:

d.  Explain how the following scientists contributed to the development of the modern atomic theory. Describe their model and explain limitations.

o  Dalton’s Billiard Ball Model

o  Thomson’s Raisin Bun Model

o  Rutherford’s Nuclear Model

o  Bohr’s Planetary Model

e.  Explain Rutherford’s gold foil experiment and it’s significance

f.  Explain atomic spectra and it’s significance to Bohr’s model

2. Quantum Mechanics:

d.  The 4 quantum numbers and what they describe

e.  The difference between orbits (Bohr) and orbitals

f.  Pauli’s exclusion principle (no two electrons have the same 4 quantum #s)

3. Electron Configuration:

e.  Aufbau principle (add electrons to lowest energy orbitals first)

f.  Hund’s rule (1 electron per orbital at an energy level before adding a 2nd)

g.  Draw energy-level diagrams and be able to identify elements/ions from them

h.  Write electron configuration (long and short) and be able to recognize an atom/ion

4. Wave Mechanics

d.  Wave/particle duality

e.  Heisenberg’s Uncertainty principle à Schrodinger’s equation

f.  Recognize the shapes of s, p, and d orbitals