One dimensional kinematics

1. One dimensional kinematics • Speed—how fast an object is moving. • Units—miles per hour, meters per second, etc. • Constant speed—speed that does not change. • Average speed—total distance covered divided by the total time it takes. • Instantaneous speed—speed that occurs at a single point in time.

2. One dimensional kinematics • Velocity—speed in a given direction. • Speed is 20 m/s, velocity is 20 m/s to the west. • Vector—an arrow that represents the magnitude and direction of a quantity. • Vector quantities—are those that need magnitude and direction to specify the quantity completely. • A velocity of 50 miles per hour north, a weight of 150 pounds downward, a force of 50 pounds to the left.

3. One dimensional kinematics • Scalar quantities—are those that do not need a direction. • Scalar quantities are mass, volume, time, length, etc.

4. One dimensional kinematics • Acceleration—the rate at which velocity changes with time. • Starting at 0 m/s and increasing velocity by 2 m/s means an acceleration of 2 m/s/s or 2 m/s2. • If velocity increases from 10 to 40 m/s in 3 seconds, acceleration is 30/3 or 10 m/s/s. • Acceleration also occurs when direction changes. You feel this acceleration when driving around a curve.

5. Left hand page assignment • Quick write: Describe how speed, velocity, and acceleration are related using vector, magnitude, direction. • Think, pair, share. Compare your response with elbow partner. • Revise your quick write to add anything you may have forgotten. • Comparison matrix for speed-velocity, and velocity-acceleration.

6. Graphing motion • Graph d vs t (none, positive/negative velocity) • +10 • 0 -10 Describe these in the graphs.

7. Graphing motion • Graph v vs t (none, positive/negative velocity) • +10 • 0 -10 Describe these in the graphs.

8. Graphing motion • Graph v vs t and d vs t for accelerating motion • +10 • 0 -10 Describe these in the graphs.

9. Left hand page • Sketch a distance-time graph showing an object that starts from a position 150 meters left of the origin, moves to the right 200 meters in 40 seconds, stops for 5 seconds, moves to the right another 200 meters in 80 seconds and then returns to origin in 125 seconds. HINT: Calculate the total distance and total time in order to create the axes. • Determine the speed in each of the 3 segments. • Compare with your neighbor and revise as needed.

10. Generating graphs from acceleration • Begin with velocity of 0 and acceleration of 10m/s/s and calculate the velocity for times of 1-5 seconds. • Then calculate the distances covered by each of these velocities. • This is an approximation of free fall due to gravity on earth at the surface. • Deriving equations of motion.

11. Rising and falling objects • Objects rise and their velocity decreases to 0 then increases as it falls to earth. • Start with upward velocity of 30 m/s and approximate acceleration of 10 m/s/s. • Determine velocities and distances moved at whole number units of time.

12. Practice calculations • Calculate the speed of an object that moves 3000 meters in 500 seconds. • How far does an object move in 12 seconds at a constant speed of 30 m/s? • A car travels 200 km in 6 hours, and then drives at 30 km/hr for 3 hours. Calculate the total distance travelled and the average speed of the car.

13. Practice calculations • How far does a car travel in 3 hours and 15 minutes at an average speed of 45 m/s? • A car brakes from a speed of 50 m/s to a stop in 3 seconds. What is the magnitude of the acceleration? • A car starts at rest and accelerates at 12 m/s/s for 7 seconds. What is the new speed of the car? • How much time is needed for a ball to fall 200 meters?

14. Practice calculations • What is the speed of a ball that has fallen for 3 seconds? • How far does a ball fall in 7 seconds of free fall? • A car travels at 50 km/hr for 380 minutes and then 60 m/s for 2 hours and 20 minutes. Calculate the distance moved and the average speed of the car.

15. Left hand page • Quick write: What is DUFAS and how is it used to solve physics problems?