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Agenda 9/23/13 Hand in Great Graphing homework Quiz: Graphing Motion Rearranging equations practice Discuss homework p. 44, p. 49 Notes/ Discussion: Kinematic.

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Presentation on theme: "Agenda 9/23/13 Hand in Great Graphing homework Quiz: Graphing Motion Rearranging equations practice Discuss homework p. 44, p. 49 Notes/ Discussion: Kinematic."— Presentation transcript:

1 Agenda 9/23/13 Hand in Great Graphing homework Quiz: Graphing Motion Rearranging equations practice Discuss homework p. 44, p. 49 Notes/ Discussion: Kinematic Equations Practice Problems Homework: Objective(s): Students will analyze motion in one dimension using equations.

2 Kinematic Equations Average velocity is defined as the total displacement divided by the total elapsed time. It is a vector quantity.

3 Kinematic Equations Acceleration is defined as the time rate of change of velocity. It is a vector quantity.

4 Kinematic Equations ∆ means “ change in” ∆d = d f –d i ∆t = t f –t i ∆v = v f -v i

5 Kinematic Equations For constant acceleration, a avg becomes a.

6 Kinematic Equations For constant acceleration, the average velocity for any given interval of time can be found by taking one-half the sum of the initial and final velocities:

7 Kinematic Equations An equation for displacement can be derived from the previous equations:

8 Kinematic Equations Let’s practice using these equations. Get white boards and markers for your table group. You may choose to write these problems in your notebook ALSO.

9 Kinematic Equations 1) Starting from rest, a ball rolls down an incline at a constant acceleration of 2.00 m/s 2. (a) What is the velocity of the ball after 8.5 sec? (17 m/s) (b) How far does the ball roll in 10.0 sec? (100 m)

10 Kinematic Equations 2) A car traveling at 88 km/ hr undergoes a constant deceleration of 8.0 m/s 2. (a) How long does it take the car to come to a stop? (3.1 sec) (b) How far does the car move after the brakes are applied? (37 m)

11 Kinematic Equations 3) An object starts from rest and moves with constant acceleration for a distance of 150 m in 25 sec. What is the acceleration of the object? (0.48 m/s 2 )

12 Calculate the total distance traveled.

13 Reflect On a scale of 1-10, how well did you comprehend the lesson? Remember, if you need help, then please attend tutorials before the test. We will now cover Free Fall Motion.

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