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Rotation of a Rigid Object About a Fixed Axis

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Chapter 10 Rotation of a Rigid Object About a Fixed Axis Rolling Motion Rigid body object or system of particles in which distances between component parts remains ... – PowerPoint PPT presentation

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Title: Rotation of a Rigid Object About a Fixed Axis


1
Chapter 10
  • Rotation of a Rigid Object About a Fixed Axis

2
Rolling Motion
  • Rigid bodyobject or system of particles in which
    distances between component parts remains
    constant
  • Translational motionmovement of the system as a
    whole
  • Described by the motion of the center of mass
  • Rotational motionmovement of individual parts
    around a particular axis
  • The spinning

3
Angular Measure
  • Circular system of position measurement
  • Useful when objects move in circular (or
    partially circular) paths
  • Planetary motion (orbits)
  • Useful when objects are rotating
  • Planetary motion (rotation)

4
Angular measure
  • Rectangular (Cartesian) coordinates
  • xperpendicular distance from the vertical axis
  • yperpendicular distance from the horizontal axis
  • Angular (circular) coordinates
  • If a line is drawn directly from the origin to
    any point . . .
  • rdistance from the origin
  • ?--angle made with the horizontal
  • Units of degrees or radians
  • x rcos?
  • y rsin?

5
Angular measure
  • Displacement
  • ?x or ?y linear displacement
  • ?? angular displacement
  • For a circle
  • ?r 0, so only angular displacement is needed to
    describe motion

6
Angular measure
  • Radians
  • s arclength
  • Distance around a circular path
  • 1 radian angle that produces an arclength equal
    to r
  • 1 rad 57.3?
  • Degrees
  • 1 revolution 360? 2? rad
  • 1? 60 minutes
  • 1 minute 60 seconds
  • parsec

7
Angular measure
  • Angular speed (?)
  • Units of rad/s
  • rpmrevolutions per minute
  • Common unit, but not standard metric
  • Angular velocity (?)
  • Direction given by right hand rule
  • Curl fingers in direction of rotation (??)
  • Thumb points in direction of ?

8
Angular measure
  • Instantaneous linear velocity (v) is in a
    straight line tangent to the circular path
  • v r?
  • For constant angular velocity, tangential
    (linear) velocity increases with the distance
    from the origin
  • How CDs work

9
Angular measure
  • Period (T)time required for 1 complete
    revolution (cycle)
  • Units of seconds (s)
  • Frequency (f)number of revolutions completed
    every second
  • Units of 1/s, s-1, cycles/s
  • Renamed Hertz (Hz)

10
Angular Kinematics
  • Angular acceleration (?) rate of change of
    angular velocity
  • Does not apply to Uniform Circular Motion
  • Related to linear (tangential) acceleration

Example 7.10, p. 225
11
Angular Kinematics
  • Angular Kinematic Equations

12
Rolling motion
  • Rolling without slippingsurface do not move with
    respect to the point of contact
  • Direct relationship between rotational and
    translational motion
  • s distance traveled by the center of mass
  • vcm velocity of the center of mass
  • acm acceleration of the center of mass

13
Torque
  • Force is the cause of translational acceleration
  • Torque(?) is the cause of rotational acceleration
  • Units of mN or Nm (not Joules)
  • The meter-Newton or Newton-meter
  • Moment arm (r)distance from the axis of rotation
    to the the point where force is applied
  • Only component of force perpendicular to moment
    arm contributes to rotation

Muscle Torque
14
Equilibrium
  • Translational equilibrium
  • ?F 0
  • No net force
  • Rotational equilibrium
  • ?? 0
  • No net torque
  • Static Equilibriumno movement
  • Kinetic Equilibriumconstant velocity

See-saw Meter stick, page 258
15
Rotational Dynamics
  • Newtons 2nd Law (translational)
  • ?F mass x acceleration
  • Newtons 2nd Law (rotational)
  • ?? rotational equivalent of mass x rotational
    equivalent of acceleration

16
Rotational Dynamics
  • I moment of inertia
  • Rotational equivalent of mass
  • Distribution of mass
  • Dependent on axis of rotation

common geometrical shapes, p. 304
17
Moment of Inertia
18
Moment of Inertia
19
Rotational Kinetic Energy
  • Remember, all your translational equations have
    rotational equivalents
  • Rotational work
  • Rotational KE
  • Rotational Work-Energy Theorem
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