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Motion in Two and Three Dimensions. 4-2 Position and Displacement The position vector is typically used to indicate the location of a particle. The position.

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Presentation on theme: "Motion in Two and Three Dimensions. 4-2 Position and Displacement The position vector is typically used to indicate the location of a particle. The position."— Presentation transcript:

1 Motion in Two and Three Dimensions

2 4-2 Position and Displacement The position vector is typically used to indicate the location of a particle. The position vector is a vector that extends from a reference point (usually the origin) to the particle.

3 The position vector for a particle is the vector sum of its vector components.

4 In unit vector notation can be written as:

5 The coefficients x, y, and z are the scalar components.

6 The coefficients x, y, and z give the particle’s location along the coordinate axes and relative to the origin.

7 The figure shows a particle with position vector:

8 As a particle moves, its position vector changes in such a way that the position vector always extends to the particle from the reference point (origin).

9

10 If the position vector changes from during a certain time interval, then the particle’s displacement during that time interval is:

11 We can rewrite this displacement as:

12 Sample Problem 4-1

13 In figure 4-2 the position vector for a particle is initially and then later it is

14 What is the particle’s displacement from ?

15 Sample Problem 4-2 A rabbit runs across a parking lot on which a set of coordinate axes has been drawn. The coordinates of the rabbit’s position as functions of time t are given by: x = -0.3t 2 + 7.2t + 28 y = 0.22t 2 - 9.1t + 30

16 At t = 15 seconds, what is the rabbit’s position vector in unit-vector notation and as a magnitude and an angle?

17 Graph the rabbit’s path for t = 0 to t = 25 s.

18

19 Average Velocity and Instantaneous Velocity If a particle moves through a displacement in time interval  t, then its average velocity is:

20 Written as vector components:

21 The instantaneous velocity is the value that approaches in the limit as  t shrinks to 0.

22 The direction of the instantaneous velocity of a particle is always tangent to the particle’s path at the particle’s position.

23 The velocity of a particle along with the scalar components of

24 Sample Problem 4-3 For the rabbit in sample problem 4-2, find the velocity at time t = 15 s, in unit vector notation and as a magnitude and an angle.

25

26 Average Acceleration and Instantaneous Acceleration When a particle’s velocity changes from to in a time interval  t, its average acceleration a avg during  t is:

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