Chapter 2

1. Chapter 2 Motion in One Dimension

2. Kinematics • In kinematics, you are interested in the description of motion • Not concerned with the cause of the motion

3. Quantities for Motion • Motion involves three concepts • Displacement, Distance • Velocity, Speed • Acceleration

4. Position • Defined in terms of a frame of reference • One dimensional, so generally the x- or y-axis • Defines a starting point for the motion

5. Displacement • Defined as the change in position • May be represented as y if vertical

6. Distance • Distance relates to the actual path traveled. • Displacement only depends on a different from start to end. • Think of displacement as a “net” quantity.

7. Graph of Position with Time

8. Vector and Scalar Quantities • Vector quantities need both magnitude (size) and direction to completely describe them • Generally denoted by boldfaced type or an arrow over the letter • + or – sign is sufficient • Scalar quantities are completely described by magnitude only

9. Speed • The average speed of an object is defined as the total distance traveled divided by the total time elapsed • Speed is a scalar quantity (units = m/s)

10. Velocity • It takes time for an object to undergo a displacement • The average velocity is the rate at which the displacement occurs • Direction will be the same as the direction of the displacement

11. Speed vs. Velocity • Cars on both paths have the same average velocity since they had the same displacement in the same time interval • The car on the blue path will have a greater average speed since the distance it traveled is larger

12. Constant Velocity • The straight line indicates constant velocity • The slope of the line is the value of the average velocity

13. Complex velocity • The red line is for a time changing velocity • The average velocity is the slope of the blue line joining two points

14. Instantaneous Velocity • The limit of the average velocity as the time interval becomes infinitesimally short (I.e., as the time interval approaches zero) • The instantaneous velocity is what happens at each point of time • Its value is a tangent line at a point

15. Acceleration • Changing velocity means an acceleration is present • Acceleration is the rate of change of the velocity • Units are m/s2 (SI), cm/s2 (cgs), and ft/s2 (US Cust)

16. Average Acceleration

17. Acceleration Quiz • A car is traveling east and slowing down. Which direction is its acceleration? • Is the acceleration considered to be positive or negative? • What is the speed of an object like (stopped, increasing, decreasing, or coasting) for a constant but nonzero acceleration?

18. Another Quiz Match v(t) to a(t)

19. Relationship Between Acceleration and Velocity

20. Kinematic Equations • For uniform acceleration

21. Graphical Interpretation

22. The Daytona 500 • What is the velocity of the race car after it has traveled 100 feet if a=5.00 m/s2 ?

23. Acceleration due to Gravity: Free Fall • Symbolized by g • g = 9.80 m/s2 • When estimating, use g» 10 m/s2 • g is always directed downward • toward the center of the earth • Ignoring air resistance and assuming g doesn’t vary with altitude over short vertical distances, free fall is constantly accelerated motion

24. Free Fall Problems