Vibration and waves - PowerPoint PPT Presentation

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Vibration and waves

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Vibration and waves The amplitude A is the maximum distance of the object from its equilibrium position The period T- is the time it takes the object to move ... – PowerPoint PPT presentation

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Title: Vibration and waves


1
Vibration and waves
2
  • A restoring force always pushes or pulls the
    object toward the equilibrium position
  • Simple harmonic motion -occurs when the net force
    is proportional to the displacement from the
    equilibrium point and is always directed toward
    the equilibrium point

3
  • The amplitude A is the maximum distance of the
    object from its equilibrium position
  • The period T- is the time it takes the object to
    move through one compete cycle of motion ( from
    xA to x-A and back to xA)
  • The frequency f is the number of complete cycles
    or vibrations per unit of time (f1/T)
  • The harmonic oscillator equation
  • a(-k/m)x
  • A ranges over the values kA/m and kA/m

4
  • Elastic potential energy PEs1/2kx2
  • Conservation of energy
  • (KE PEgPEs)i (KE PEgPEs)f

5
  • Velocity as a Function of position
  • ½ kA2 1/2mv21/2kx2
  • vvk/m(A2-x2)

6
  • Comparing harmonic motion with circular motion
  • v Cv (A2-x2)
  • sin?v/vo
  • sin ? (vA2-x2)/A
  • v/vo(vA2-x2)/A
  • v vo(vA2-x2)/A
  • C v (A2-x2)

7
  • Period and frequency
  • vo2pA/T
  • T2pA/vo
  • Conservation of energy1/2kA21/2mv2
  • A/vo vm/k
  • T2pvm/k
  • f (1/2p)vk/m
  • The angular frequency
  • ?2pf vk/m

8
  • Position, velocity and acceleration as a fct. of
    time
  • xAcos?
  • ? ?t
  • ???/?t 2p/T 2pf
  • x Acos(2pft)
  • v-A?sin(2pft)
  • ?vk/m
  • a-A?2cos(2pft)

9
  • Motion of a pendulum
  • Ft-mg sin? -mg ?
  • Ft mg sin(s/L)
  • Ft-(mg/L)s
  • Ft-kx
  • k mg/L
  • ?2pf vk/m
  • ?vmgL/mvg/L
  • T 2pvg/L

10
  • Simple harmonic motion for an object-spring
    system, and its analogy, the motion of a simple
    pendulum

11
  • Wave-the motion of a disturbance
  • Transverse waves- each segment of the rope that
    is disturbed moves in a direction perpendicular
    to the wave motion
  • Longitudinal waves- the elements of the medium
    undergo displacements parallel to the direction
    of wave motion (sound waves)

12
  • Frequency, Amplitude and wavelength
  • v?x/?t
  • ?x? ?tT
  • v ?/T
  • vf ?
  • The wavelength ?- is the distance between 2
    successive points that behaves identically
  • The speed of waves on strings vvF/µ
  • (F-tension, µ- linear density-mas of the
    string/unit length

13
  • Interference of waves
  • Two traveling waves can meet and pass through
    each other without being destroyed or even
    altered
  • The superposition principle when 2 or more
    traveling waves encounter other while moving
    through a medium, the resultant wave is found by
    adding togherther the displacements of the
    individual waves point by point (constructive
    interference or destructive interference)
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