Monday 12/15:
Tuesday 12/16:
Wendesday 12/17:
Thursday 12/18:
Friday 12/19:
Objectives:
1) Describe how force affects the motion of an object
2) Interpret and construct free body diagrams.
3) Explain the relationship between the motion of an object and the net external force acting on the object.
4) Determine the net external force on an object.
5) Calculate the force required to bring an object into equilibrium.
6) Describe an object’s acceleration in terms of its mass and the net force acting on it.
7) Predict the direction and magnitude of the acceleration caused by a known net force.
8) Identify action-reaction pairs.
9) Explain the difference between mass and weight.
10) Find the direction and magnitude of normal forces.
11) Describe air resistance as a form of friction.
12) Use coefficients of friction to calculate frictional force.
- Go over HW page 137 #1-3
- Finish Force Supplemental problems.
- Turn in test corrections.
Tuesday 12/16:
- Check Supplemental Problems (Forces)
- Notes 4.4
- Example Problem E pg. 138.
- Hand our Ch 4 Test Review.
- Extra Credit Assignment for Review: Page 145 #30, 32, 34, 35, 36, 43, 45, 46, 52, page 147 #1-4.
Wendesday 12/17:
- Review various problems from Chapter 4 review.
- Review for test Friday.
Thursday 12/18:
- Review for chapter 4 test.
Friday 12/19:
- Chapter 4 Test.
Objectives:
1) Describe how force affects the motion of an object
2) Interpret and construct free body diagrams.
3) Explain the relationship between the motion of an object and the net external force acting on the object.
4) Determine the net external force on an object.
5) Calculate the force required to bring an object into equilibrium.
6) Describe an object’s acceleration in terms of its mass and the net force acting on it.
7) Predict the direction and magnitude of the acceleration caused by a known net force.
8) Identify action-reaction pairs.
9) Explain the difference between mass and weight.
10) Find the direction and magnitude of normal forces.
11) Describe air resistance as a form of friction.
12) Use coefficients of friction to calculate frictional force.