Difference between revisions of "Forces & Matter"
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*[[3-FAM-01]] Types of Forces | *[[3-FAM-01]] Types of Forces | ||
− | *[[3-FAM-02]] | + | *[[3-FAM-02]] Building a Force Meter and Hooke's Law |
*[[3-FAM-03]] Models of the Atom | *[[3-FAM-03]] Models of the Atom | ||
*[[3-FAM-04]] Particle Theory Models | *[[3-FAM-04]] Particle Theory Models |
Revision as of 14:48, 12 October 2008
Lesson Order
- 3-FAM-01 Types of Forces
- 3-FAM-02 Building a Force Meter and Hooke's Law
- 3-FAM-03 Models of the Atom
- 3-FAM-04 Particle Theory Models
- 3-FAM-05 Melting Point, Freezing point
- 3-FAM-06 Boiling point
Topics covered
- Naming and labelling different types of forces.
- Labelling Newton's third law paired forces in a range of situations.
- Newton's third law paired forces act on different objects and therefore do not cancel.
- The plum pudding model of the atom.
- Observations drawn from the Geiger Marsden experiment.
- Conclusions made which led to the Rutherford model of the atom.
- States of matter can be classified in terms of their characteristics e.g. compressibility, ease of flow, maintenance of shape and volume.
- The change of state of Butyl Stearate.
- Characteristics of BS in solid and in liquid forms.
- Temperature doesn’t change during a change of state.
- The molecules of the liquid must overcome the forces of attraction between them.
- The temperature of a boiling liquid remains constant, even when more heat is added.