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King Fahd University of Petroleum & Minerals

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1 King Fahd University of Petroleum & Minerals
Mechanical Engineering Dynamics ME 201 BY Dr. Meyassar N. Al-Haddad Lecture # 23

2 Course coverage Kinematics of particle in various motion. (Chapter 12)
Force and acceleration. (Chapter 13) Work and energy relations. (Chapter 14) Impulse and Momentum. (Chapter 15) Kinematics of a rigid bodies. (Chapter 16) Force and acceleration of a rigid bodies . (Chapter 17) Work and energy relations of a rigid bodies. (Chapter 18) Impulse and Momentum of a rigid bodies (Chapter 19)

3 Chapter 16 Planar Kinematics of a Rigid Body Objective
To classify the various types of rigid-body. To investigate rigid-body translation and show how to analyze motion about a fixed axis.

4 Rigid-Body Motion Types of rigid body planar motion: Translation
Rotational about fixed axis General plane motion

5 Translation Every line segment on the body remains parallel to its original direction during the motion

6 Rotation about fixed axis
All particles of the body move along circular paths except those which lie on the axis of rotation

7 General plane motion Combination of translation and rotation

8 Example Curvilinear translation General plane motion
Rectilinear translation Rotation about a fixed axis

9 Translation Position Velocity Acceleration
All points move with same velocity and acceleration

10 Summary chapter 12 Time dependent acceleration Constant acceleration

11 Rotation About a Fixed axis For Line
Angular Position ( q ) Defined by the angle q measured between a fixed reference line and r Measured in rad Angular Displacement Measured as dq Vector quantity Measured in radians or revolutions 1 rev = 2 p rad

12 Angular velocity (w ) “the time rate of change in the angular position” Angular acceleration “the time rate of change of the angular velocity” a = f(q)

13 Constant Angular Acceleration

14 Comparison

15 Motion of Point P Position : Velocity
Is defined by the position vector r The arc-length is Velocity “tangent to the path”

16 Acceleration “rate of change in the velocity’s magnitude”
“rate of change in the velocity’s direction” Direction of an is always toward O

17 r1 r2 r1 r2 s , v, a

18 Example 16-1 Rest at = 4t m/s2 w=? q=?

19 Thank You

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