PHYSICS NOTES OSCILLATIONS - · PDF filePHYSICS NOTES 1 OSCILLATIONS
Chapter 14. Oscillations - GSU P&Aphysics.gsu.edu/dhamala/Physics2211/Chapter14.pdf · Chapter 14....
Transcript of Chapter 14. Oscillations - GSU P&Aphysics.gsu.edu/dhamala/Physics2211/Chapter14.pdf · Chapter 14....
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Chapter 14. Oscillations
This striking computer-
generated image demonstrates
an important type of motion:
oscillatory motion. Examples
of oscillatory motion include a
car bouncing up and down, a
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car bouncing up and down, a
ringing bell, and the current in
an antenna
Chapter Goal: To understand
systems that oscillate with
simple harmonic motion.
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Topics:
• Simple Harmonic Motion
• Simple Harmonic Motion and Circular
Motion
Chapter 14. Oscillations
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• Energy in Simple Harmonic Motion
• The Dynamics of Simple Harmonic Motion
• Vertical Oscillations
• The Pendulum
• Damped Oscillations
• Driven Oscillations and Resonance
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Chapter 14. Reading Quizzes
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Chapter 14. Reading Quizzes
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What is the name of the quantity
represented by the symbol ωωωω
A. Angular momentum
B. Angular frequency
C. Phase constant
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C. Phase constant
D. Uniform circular motion
E. Centripetal acceleration
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What term is used to describe an
oscillator that “runs down” and
eventually stops?
A. Tired oscillator
B. Out of shape oscillator
C. Damped oscillator
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C. Damped oscillator
D. Resonant oscillator
E. Driven oscillator
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The starting conditions of an
oscillator are characterized by
A. the initial acceleration.
B. the phase constant.
C. the phase angle.
D. the frequency.
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D. the frequency.
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Chapter 14. Basic Content and Examples
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Chapter 14. Basic Content and Examples
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Simple Harmonic Motion
A system can oscillate in many ways, but we will be
especially interested in the smooth sinusoidal oscillation
called Simple Harmonic Motion (SHM). The characteristic
equation for SHM is a cosine function.
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The argument of the cosine function is in radians. The time
to complete one full cycle, or one oscillation, is called the
period, T. The frequency, f, is the number of cycles per
second. Frequency and period are related by
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Simple Harmonic Motion
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Simple Harmonic Motion
The oscillation frequency f is measured in cycles per
second, or Hertz.
We may also define an angular frequency ω in radians per
second, to describe the oscillation.
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The position of an object oscillating with SHM can then be
written as
The maximum speed of this object is
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EXAMPLE 14.2 A system in simple harmonic
motion
QUESTION:
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EXAMPLE 14.2 A system in simple harmonic
motion
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EXAMPLE 14.2 A system in simple harmonic
motion
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EXAMPLE 14.2 A system in simple harmonic
motion
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EXAMPLE 14.2 A system in simple harmonic
motion
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Simple Harmonic Motion
If the initial position of an object in SHM is not A, then we
may still use the cosine function, with a phase constant
measured in radians.
In this case, the two primary kinematic equations of SHM
are:
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are:
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EXAMPLE 14.4 Using the initial conditions
QUESTION:
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EXAMPLE 14.4 Using the initial conditions
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EXAMPLE 14.4 Using the initial conditions
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EXAMPLE 14.4 Using the initial conditions
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EXAMPLE 14.4 Using the initial conditions
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Energy in Simple Harmonic Motion
Energy is conserved in SHM.
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EXAMPLE 14.5 Using conservation of energy
QUESTION:
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EXAMPLE 14.5 Using conservation of energy
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EXAMPLE 14.5 Using conservation of energy
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Dynamics of Simple Harmonic Motion
The acceleration of an object in SHM is maximum when
the displacement is most negative, minimum when the
displacement is at a maximum, and zero when x = 0. The
derivative of the velocity is.
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Because x = A cos ωt, this can be written as
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Dynamics of Simple Harmonic Motion
When we combine Hooke’s Law for a mass on a spring
with Newton’s second law, we obtain the equation of
motion for a mass on a spring.
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The solution of this equation of motion is
where the angular frequency
is determined by the mass and the spring constant.
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Vertical Oscillations
Motion for a mass hanging from a spring is the same as for
horizontal SHM, but the equilibrium position is affected.
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EXAMPLE 14.7 Bungee oscillations
QUESTION:
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EXAMPLE 14.7 Bungee oscillations
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EXAMPLE 14.7 Bungee oscillations
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EXAMPLE 14.7 Bungee oscillations
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EXAMPLE 14.7 Bungee oscillations
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EXAMPLE 14.7 Bungee oscillations
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The Pendulum
Consider a mass m attached to a
string of length L. If it is
displaced from its lowest
position by an angle θ,
Newton’s second law for the
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Newton’s second law for the
tangential component, parallel
to the motion, is
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The Pendulum
Suppose we restrict the pendulum’s oscillations to small
angles (< 10°). Then we may use the small angle
approximation sin θ ≈ θ, where θ is measured in radians.
Since θ = s/L, the net force on the mass is
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and the angular frequency of the motion is found to be
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EXAMPLE 14.9 The maximum angle of a
pendulum
QUESTION:
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EXAMPLE 14.9 The maximum angle of a
pendulum
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EXAMPLE 14.9 The maximum angle of a
pendulum
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EXAMPLE 14.9 The maximum angle of a
pendulum
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Tactics: Identifying and analyzing simple
harmonic motion
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Tactics: Identifying and analyzing simple
harmonic motion
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Damped Oscillations
• An oscillation that runs down and stops is called
a damped oscillation.
• One possible reason for dissipation of energy is the
drag force due to air resistance.
• This is difficult to calculate exactly but a good model for
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• This is difficult to calculate exactly but a good model for
a slowly moving object is
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Damped Oscillations
When a mass on a spring experiences the force of the spring
as given by Hooke’s Law, as well as a drag force of
magnitude |D|=bv, the solution is
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where the angular frequency is given by
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Damped Oscillations
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Driven Oscillations and Resonance
• Consider an oscillating system that, when left to
itself, oscillates at a frequency f0. We call this the
natural frequency of the oscillator.
• Suppose that this system is subjected to a
periodic external force of frequency fext. This frequency
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periodic external force of frequency fext. This frequency
is called the driving frequency.
• The amplitude of oscillations is generally not very high
if fext differs much from f0.
• As fext gets closer and closer to f0, the amplitude of
the oscillation rises dramatically.
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Driven Oscillations and Resonance
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Driven Oscillations and Resonance
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Chapter 14. Summary Slides
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Chapter 14. Summary Slides
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General Principles
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General Principles
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Important Concepts
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Important Concepts
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Applications
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Applications
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Chapter 14. Questions
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Chapter 14. Questions
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An object moves with simple harmonic
motion. If the amplitude and the period are
both doubled, the object’s maximum speed
is
A. quartered.
B. halved.
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B. halved.
C. unchanged.
D. doubled.
E. quadrupled.
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An object moves with simple harmonic
motion. If the amplitude and the period are
both doubled, the object’s maximum speed
is
A. quartered.
B. halved.
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley.
B. halved.
C. unchanged.
D. doubled.
E. quadrupled.
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The figure shows four oscillators at t = 0.
Which one has the phase constant
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The figure shows four oscillators at t = 0.
Which one has the phase constant
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Four springs have been compressed from
their equilibrium position at x = 0 cm.
When released, they will start to oscillate.
Rank in order, from highest to lowest, the
maximum speeds of the oscillations.
A. c > b > a > d
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B. c > b > a = d
C. a = d > b > c
D. d > a > b > c
E. b > c > a = d
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A. c > b > a > d
Four springs have been compressed from
their equilibrium position at x = 0 cm.
When released, they will start to oscillate.
Rank in order, from highest to lowest, the
maximum speeds of the oscillations.
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B. c > b > a = d
C. a = d > b > c
D. d > a > b > c
E. b > c > a = d
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This is the position
graph of a mass on a
spring. What can you
say about the velocity
and the force at the
instant indicated by the
dotted line?
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A. Velocity is zero; force is to the right.
B. Velocity is zero; force is to the left.
C. Velocity is negative; force is to the left.
D. Velocity is negative; force is to the right.
E. Velocity is positive; force is to the right.
dotted line?
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This is the position
graph of a mass on a
spring. What can you
say about the velocity
and the force at the
instant indicated by the
dotted line?
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley.
A. Velocity is zero; force is to the right.
B. Velocity is zero; force is to the left.
C. Velocity is negative; force is to the left.
D. Velocity is negative; force is to the right.
E. Velocity is positive; force is to the right.
dotted line?
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One person swings on a swing and finds
that the period is 3.0 s. Then a second
person of equal mass joins him. With two
people swinging, the period is
A. 6.0 s.
B. >3.0 s but not necessarily 6.0 s.
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B. >3.0 s but not necessarily 6.0 s.
C. 3.0 s.
D. <3.0 s but not necessarily 1.5 s.
E. 1.5 s.
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One person swings on a swing and finds
that the period is 3.0 s. Then a second
person of equal mass joins him. With two
people swinging, the period is
A. 6.0 s.
B. >3.0 s but not necessarily 6.0 s.
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley.
B. >3.0 s but not necessarily 6.0 s.
C. 3.0 s.
D. <3.0 s but not necessarily 1.5 s.
E. 1.5 s.
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Rank in order, from largest to smallest, the
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Rank in order, from largest to smallest, the
time constants τa – τd of the decays shown in
the figure. A.
B.
C.
D.
E.
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Rank in order, from largest to smallest, the
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley.
Rank in order, from largest to smallest, the
time constants τa – τd of the decays shown in
the figure. A.
B.
C.
D.
E.