CHAPTER 10 ROTATION OF A RIGID OBJECT ABOUT A FIXED AXIS WEN-BIN JIAN ( 簡紋濱 ) DEPARTMENT OF ELECTROPHYSICS NATIONAL CHIAO TUNG UNIVERSITY
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1 CHAPTER 10 ROTATION OF A RIGID OBJECT ABOUT A FIXED AXIS WEN-BIN JIAN ( 簡紋濱 ) DEPARTMENT OF ELECTROPHYSICS NATIONAL CHIAO TUNG UNIVERSITY
2 OUTLINE 1. Angular Position, Velocity, and Acceleration 2. Rotational Kinematics 3. Angular and Translational Quantities 4. Rotational Kinetic Energy 5. Calculation of Moments of Inertia 6. Torque 7. The Rigid Body Under a Net Torque 8. Rotational Energy 9. Rolling Motion
3 1. ANGULAR POSITION, VELOCITY, AND ACCELERATION Rigid body: Not elastic & no relative motion for elements in the body Rotation: Given an axis, moving around the fixed axis Angular Position:, 1 rev = 360 o (deg)=2 (rad), 1 rad=57.3 o Angular Displacement: Here the counterwise direction is positive. Average Angular Velocity: Instant Ang Velocity: rpm rev per min Average Angular Accel: Instant Angular Accel:, Unit: rotation axis
4 1. ANGULAR POSITION, VELOCITY, AND ACCELERATION Example: A disk is rotating about its central axis like a merry-go-round. The angular position of a reference line on the disk is given by with t in seconds, in radians. (a) At what time does reach the minimum value? What s that value? (b) Calculate the angular velocity at any time. Calculate the average angular velocity from t=-3.0 to t=6.0 s. (a) (rad) (b)
5 2. ROTATIONAL KINEMATICS A Comparison of Equations for Rotational & Translational Motion ω
6 2. ROTATIONAL KINEMATICS Example: A grindstone rotates at constant angular acceleration = 0.35 rad/s 2. At time t = 0, it has an angular velocity of = -4.6 rad/s and a reference line on it is horizontal, at the angular position = 0. Please calculates its angular velocity and angular position. 0.35, at 0, 4.6,
7 3. ANGULAR AND TRANSLATIONAL QUANTITIES Linke The Angular Variables to Translational Variables The Anglar Displacement: The Angular Velocity:, The Acceleration:, Example: The centrifuge is used to accustom astronaut trainees to high accelerations. The radius of the circle traveled by an astronaut is 15.0 m. (a) At what constant angular speed must the centrifuge rotate if the astronaut is to have a linear acceleration of magnitude 11g? (b) What is the tangential acceleration of the astronaut if the centrifuge accelerates at a constant rate from rest to the angular speed of (a) in 120 s? / 0.34 /
8 4. ROTATIONAL KINETIC ENERGY Kinetic Energy, : rotational inertia 1 2
9 4. ROTATIONAL KINETIC ENERGY Example: Consider an oxygen molecule rotating on the xy plane about the z axis. The rotation axis passes through the center of the molecule, perpendicular to its length. The mass of each oxygen atom is 2.66 x kg, and the average separation between the two atoms is d = 1.21 x m. (a) Calculate the moment of inertia of the molecule about the z axis. (b) If the angular speed of the molecule about the z axis is 4.60 X rad/s, what is its rotational kinetic energy? (a) (b)
10 4. ROTATIONAL KINETIC ENERGY Example: Please calculate the moment of inertia of the four objects if the rotation is about the z axis and about the y axis. About the Z axis: 2 2 About the y axis: 2
11 5. CALCULATION OF MOMENTS OF INERTIA Cartesian Coordinate: V
12 5. CALCULATION OF MOMENTS OF INERTIA Cylindrical Coordinate:
13 5. CALCULATION OF MOMENTS OF INERTIA Spherical Coordinate: sin sin sin 2 cos sin 4 4 3
14 5. CALCULATION OF MOMENTS OF INERTIA Moments of Inertia of a Hoop 2 2 Moments of Inertia of an Annular Cylinder 2 rotation axis rotation axis
15 5. CALCULATION OF MOMENTS OF INERTIA Moments of Inertia of a Cylinder rotation axis 2 / sin / rotation axis
16 5. CALCULATION OF MOMENTS OF INERTIA Moments of Inertia of a Sphere sin sin 2 5 rotation axis Moments of Inertia of a Spherical Shell 4 4 sin sin 2 3
17 5. CALCULATION OF MOMENTS OF INERTIA Moments of Inertia of a Slab / / / / / / 12 / / / 12 / / / rotation axis / / / / 12
18 5. CALCULATION OF MOMENTS OF INERTIA Parallel Axis Theorem Restriction: Shift of Rotation Axis from That Through The COM to a New Position Simplify The Derivation: Let COM at O, 0 0, rotation axis through COM 2 2
19 5. CALCULATION OF MOMENTS OF INERTIA Example: What s the rotational inertia about the z axis through its center of mass? What s the rotational inertia about an axis through the mass m and parallel to the first axis?
20 5. CALCULATION OF MOMENTS OF INERTIA Example: A uniform rod of length L and mass M is free to rotate on a frictionless pin through one end. The rod is released from rest in the horizontal position. What is the angular speed of the rod at its lowest position? /
21 6. TORQUE Torque: Like a Force, Used to Accelerate The Angular Displacement, it is defined as Example: What s the net torque on the cylinder?
22 7. THE RIGID BODY UNDER A NET TORQUE Reaction to The Net Torque:,,
23 7. THE RIGID BODY UNDER A NET TORQUE Example: A uniform rod of length L and mass M is attached to a frictionless pivot and is free to rotate about the pivot in the vertical plane. The rod is released from rest in the horizontal position. What is the initial angular acceleration? /
24 7. THE RIGID BODY UNDER A NET TORQUE Example: A wheel of radius R, mass M, and moment of inertia I is mounted on a frictionless horizontal axle. A light cord wrapped around the wheel supports an object of mass m. Calculate the angular acceleration of the wheel, the linear acceleration of the object, and the tension in the cord. 1 1
25 7. THE RIGID BODY UNDER A NET TORQUE Example: Two blocks having masses m 1 and m 2 are connected to each other by a light cord that passes over two identical frictionless pulleys, each having a moment of inertia I and radius R. Find the acceleration of each block and the tension T 1, T 2, and T 3 in the cord
26 8. ROTATIONAL ENERGY Work & Work-Kinetic Energy / 2 /
27 8. ROTATIONAL ENERGY Example: A uniform rod of length L and mass M is free to rotate on a frictionless pin passing through one end. The rod is released from rest in the horizontal position. Determine the tangential speed of the COM and the tangential speed of the lowest point on the rod when it is in the vertical position /
28 9. ROLLING MOTION, Rolling - Rotational and Translational Motion cos sin sin cos rotation axis sin cos sin cos 2, 0 0, 3 2,
29 9. ROLLING MOTION Example: A uniform solid cylindrical disk, of mass M = 1.4 kg and radius R = 8.5 cm, rolls smoothly across a horizontal table at a speed of 15 cm/s. What is its kinetic energy? 2, 1.4, 0.085,
30 9. ROLLING MOTION Example: A uniform ball, of mass M = 6.00 kg and radius R, rolls smoothly from rest down a ramp at angle = (a) The ball descends a vertical height h = 1.20 m to reach the bottom of the ramp. What is its speed at the bottom? (b) What are the magnitude and direction of the friction force on the ball as it rolls down the ramp?, 2 5 sin sin sin 2 5 sin 5 7
31 9. ROLLING MOTION Example: A uniform ball, of mass M = 6.00 kg and radius R, rolls smoothly from rest down a ramp at angle = (a) The ball descends a vertical height h = 1.20 m to reach the bottom of the ramp. What is its speed at the bottom? (b) What are the magnitude and direction of the friction force on the ball as it rolls down the ramp? (a) ,, / (b) 5 sin 7 sin 2 sin
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