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Page 1 CHAPTER 15 Kinematics of Rigid Bodies Page 2 CHAPTER 15 Kinematics of Rigid Bodies Introduction • Kinematics of rigid bodies: relations between time and the positions, velocities, and accelerations of the particles forming a rigid body. • Classification of rigid body motions: - general motion - motion about a fixed point - general plane motion - rotation about a fixed axis • curvilinear translation • rectilinear translation - translation: Page 3 CHAPTER 15 Kinematics of Rigid Bodies Introduction • Kinematics of rigid bodies: relations between time and the positions, velocities, and accelerations of the particles forming a rigid body. • Classification of rigid body motions: - general motion - motion about a fixed point - general plane motion - rotation about a fixed axis • curvilinear translation • rectilinear translation - translation: Translation • Consider rigid body in translation: - direction of any straight line inside the body is constant, - all particles forming the body move in parallel lines. • For any two particles in the body, A B A B r r r ? ? ? ? ? • Differentiating with respect to time, A B A A B A B v v r r r r ? ? ? ? ? ? ? ? ? ? ? ? ? ? All particles have the same velocity. A B A A B A B a a r r r r ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? • Differentiating with respect to time again, All particles have the same acceleration. Page 4 CHAPTER 15 Kinematics of Rigid Bodies Introduction • Kinematics of rigid bodies: relations between time and the positions, velocities, and accelerations of the particles forming a rigid body. • Classification of rigid body motions: - general motion - motion about a fixed point - general plane motion - rotation about a fixed axis • curvilinear translation • rectilinear translation - translation: Translation • Consider rigid body in translation: - direction of any straight line inside the body is constant, - all particles forming the body move in parallel lines. • For any two particles in the body, A B A B r r r ? ? ? ? ? • Differentiating with respect to time, A B A A B A B v v r r r r ? ? ? ? ? ? ? ? ? ? ? ? ? ? All particles have the same velocity. A B A A B A B a a r r r r ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? • Differentiating with respect to time again, All particles have the same acceleration. Rotation About a Fixed Axis. Velocity • Consider rotation of rigid body about a fixed axis AA’ • Velocity vector of the particle P is tangent to the path with magnitude dt r d v ? ? ? dt ds v ? ? ? ? ? ? ? ? ? ? ? ? ? ? sin sin lim sin 0 ? r t r dt ds v r BP s t ? ? ? ? ? ? ? ? ? ? ? ? locity angular ve k k r dt r d v ? ? ? ? ? ? ˆ ˆ ? ? ? ? ? ? ? ? ? ? • The same result is obtained from Page 5 CHAPTER 15 Kinematics of Rigid Bodies Introduction • Kinematics of rigid bodies: relations between time and the positions, velocities, and accelerations of the particles forming a rigid body. • Classification of rigid body motions: - general motion - motion about a fixed point - general plane motion - rotation about a fixed axis • curvilinear translation • rectilinear translation - translation: Translation • Consider rigid body in translation: - direction of any straight line inside the body is constant, - all particles forming the body move in parallel lines. • For any two particles in the body, A B A B r r r ? ? ? ? ? • Differentiating with respect to time, A B A A B A B v v r r r r ? ? ? ? ? ? ? ? ? ? ? ? ? ? All particles have the same velocity. A B A A B A B a a r r r r ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? • Differentiating with respect to time again, All particles have the same acceleration. Rotation About a Fixed Axis. Velocity • Consider rotation of rigid body about a fixed axis AA’ • Velocity vector of the particle P is tangent to the path with magnitude dt r d v ? ? ? dt ds v ? ? ? ? ? ? ? ? ? ? ? ? ? ? sin sin lim sin 0 ? r t r dt ds v r BP s t ? ? ? ? ? ? ? ? ? ? ? ? locity angular ve k k r dt r d v ? ? ? ? ? ? ˆ ˆ ? ? ? ? ? ? ? ? ? ? • The same result is obtained from • k k k celeration angular ac dt d ˆ ˆ ˆ ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? Rotation About a Fixed Axis. Acceleration • Differentiating to determine the acceleration, ? ? v r dt d dt r d r dt d r dt d dt v d a ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? component on accelerati radial ) r ? ( ? component on accelerati tangential r a ) r ? ( ? r a a = × × = × × × + × = ? ? ? ? ? ? ? ? ? ? ? • Acceleration of P is combination of two vectors,Read More
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FAQs on PPT: Kinematics of Particles & Rigid Bodies - Engineering Mechanics - Civil Engineering (CE)
| 1. What is the difference between kinematics of particles and kinematics of rigid bodies? |  |
Ans. Kinematics of particles studies the motion of individual particles without considering the size or shape of the object, while kinematics of rigid bodies focuses on the motion of objects that maintain their shape and size during motion.
| 2. How is velocity calculated in kinematics of particles and rigid bodies? | |
Ans. In kinematics of particles, velocity is calculated as the derivative of displacement with respect to time, while in kinematics of rigid bodies, velocity is calculated as the derivative of the position vector of a point on the body with respect to time.
| 3. Can kinematics equations be applied to both particles and rigid bodies? | |
Ans. Yes, the basic kinematics equations such as the equations for displacement, velocity, and acceleration can be applied to both particles and rigid bodies. However, for rigid bodies, additional considerations such as rotational motion need to be taken into account.
| 4. What are some real-life examples of kinematics of particles and rigid bodies? | |
Ans. Examples of kinematics of particles include the motion of a falling object, the trajectory of a projectile, or the movement of a car along a straight road. Examples of kinematics of rigid bodies include the rotation of a spinning top, the swinging motion of a pendulum, or the movement of a rotating wheel.
| 5. How does the study of kinematics of particles and rigid bodies relate to engineering and physics? | |
Ans. The study of kinematics of particles and rigid bodies is essential in engineering and physics as it provides a foundation for understanding and analyzing the motion of objects and systems. It helps engineers design efficient and safe machines, analyze the behavior of structures, and predict the movement of objects in various applications such as robotics, aerospace, and mechanical systems.
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