lecture 12: applications of oscillatory...
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General Physics IGeneral Physics I
Lecture 12: Applications of Lecture 12: Applications of Oscillatory MotionOscillatory Motion
Prof. WAN, Xin (万歆)
[email protected]://zimp.zju.edu.cn/~xinwan/
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OutlineOutline
● The pendulum ● Comparing simple harmonic motion and uniform
circular motion● Damped oscillation and forced oscillation● Vibration in molecules● Elastic properties of solids
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Simple PendulumSimple Pendulum
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Period of the Simple PendulumPeriod of the Simple Pendulum
● The period and frequency of a simple pendulum depend only on the length of the string and the acceleration due to gravity.
Question: Christian Huygens (1629–1695) suggested that an unit of length could be defined as the length of a simple pendulum having a period of exactly 1 s. How long is the length?
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Physical PendulumPhysical Pendulum
● If a hanging object oscillates about a fixed axis that does not pass through its center of mass and the object cannot be approximated as a point mass, we cannot treat the system as a simple pendulum. In this case the system is called a physical pendulum.
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Physical PendulumPhysical Pendulum
Used to measure the moment of inertia of a flat rigid body.
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Torsional PendulumTorsional Pendulum
When the body is twisted through some angle, the twisted wire exerts on the body a restoring torque that is proportional to the angular displacement.
There is no small-angle restriction in this situation as long as the elastic limit of the wire is not exceeded.
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Circular MotionCircular Motion
An experimental setup for demonstrating the connection between simple harmonic motion and uniform circular motion. As the ball rotates on the turntable with constant angular speed, its shadow on the screen moves back and forth in simple harmonic motion.
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Oscillation vs. Circular MotionOscillation vs. Circular Motion
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Oscillation vs. Circular MotionOscillation vs. Circular Motion
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Oscillation vs. Circular MotionOscillation vs. Circular Motion
● Simple harmonic motion along a straight line can be represented by the projection of uniform circular motion along a diameter of a reference circle.
● Uniform circular motion can be considered a combination of two simple harmonic motions, one along the x axis and one along the y axis, with the two differing in phase by 90°.
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Damped OscillatorDamped Oscillator
b: damping coefficient
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Damped OscillatorDamped Oscillator
● When the retarding force is much smaller than the restoring force, the oscillatory character of the motion is preserved but the amplitude decreases in time, with the result that the motion ultimately ceases.
(c) overdamped(b) critically damped(a) underdamped
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Forced OscillationForced Oscillation
Steady state:
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Resonance FrequencyResonance Frequency
● For small damping, the amplitude becomes very large when the frequency of the driving force is near the natural frequency of oscillation. The dramatic increase in amplitude near the natural frequency w0 is called resonance, and for this reason w0 is sometimes called the resonance frequency of the system.
● At resonance the applied force is in phase with the velocity and that the power transferred to the oscillator is a maximum.
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Lennard–Jones PotentialLennard–Jones Potential
● The potential energy associated with the force between a pair of neutral atoms or molecules can be modeled by the Lennard–Jones potential energy function:
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The EquilibriumThe Equilibrium
We can approximate the complex atomic/molecular binding forces as tiny springs.
dUdx
= 0 x0=21 /6σ≈1.122σ
U (x) = 4ϵ [(σx )12
−(σx )
6
]
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Force Near the Equilibrium Force Near the Equilibrium
U (x) = 4ϵ [(σx )12
−(σx )
6
] = ϵ [(x0
x )12
−2 (x0x )6
]F (x) = −
dU (x)
dx=
12ϵ
x0 [(x0x )13
−(x0x )7
]= −
d2Udx2 ∣
x=x0
(x−x0)+O ((x−x0)2 )
≈ −72ϵ
x02 (x−x0)
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Vibration FrequencyVibration Frequency
Effective spring constant: k =72ϵ
x02
ω = √72ϵ
μ x02 Reduced mass!
Example: Vibration of two water molecules
σ = 0.32×10−9 m
ϵ = 1.08×10−21 J
f = ω2π
=12π √72 ϵ
μ x02 ≈ 1012Hz
μ ≈ 9mproton Why?
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Block-Spring System RevisitBlock-Spring System Revisit
2
2)(
dt
xdmkx
dx
xdUF
x
2
2
1)( kxxU
d2 xdt2
=−ω2 x
F
m
kω 2
)cos0 t(xxF
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Two Harmonic OscillatorsTwo Harmonic Oscillators
)(' 21121
2
xxkxkdt
xdm
1x
)(' 12222
2
xxkxkdt
xdm
)(')(
21221
2
xxm
k
dt
xxd
)(2')(
21221
2
xxm
kk
dt
xxd
2x
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Two Harmonic OscillatorsTwo Harmonic Oscillators
)(' 21121
2
xxkxkdt
xdm
1x
)(' 12222
2
xxkxkdt
xdm 201010
2 )'( kxxkkxm
2010202 )'( xkkkxxm
)cos0 t(xx ii
2x
Assume
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Two Harmonic OscillatorsTwo Harmonic Oscillators
0'
'
20
10
2
2
x
x
mkkk
kmkk
2010102 )'( kxxkkxm 201020
2 )'( xkkkxxm
)cos0 t(xx iiAssume
1x 2x
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Vibrational ModeVibrational Mode
20100' xxk
2/
2' 0'
m
k
m
kk k
Solution 1:
Vibration with the reduced mass.
1x 2x
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Translational ModeTranslational Mode
2010 xx
0' 0' k
m
kSolution 1:
Translation!
1x 2x
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Two Harmonic OscillatorsTwo Harmonic Oscillators
20
102
20
10
'
'
x
xm
x
x
kkk
kkk
1x 2x
In mathematics language, we solved an eigenvalue problem.
The two eigenvectors are orthogonal to each other. Independent!
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Mode CountingMode Counting
● N-atom linear molecule – Translation: 3
– Rotation: 2
– Vibration: 3N – 5
● N-atom (nonlinear) molecule− Translation: 3− Rotation: 3− Vibration: 3N – 6
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Vibrational Modes of COVibrational Modes of CO22
● N = 3, linear– Translation: 3
– Rotation: 2
– Vibration: 3N – 3 – 2 = 4
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Vibrational Modes of HVibrational Modes of H22OO
● N = 3, planer– Translation: 3
– Rotation: 3
– Vibration: 3N – 3 – 3 = 3
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SolidsSolids
● Microscopically, a solid can be regarded as an array of atoms connected by springs (atomic forces).
● Macroscopically, therefore, it is possible to change the shape or the size of a solid by applying external forces. As these changes take place, however, internal forces in the
object resist the deformation.
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Elastic PropertiesElastic Properties
● Stress: A quantity that is proportional to the force causing a deformation; more specifically, stress is the external force acting on an object per unit cross-sectional area.
● Strain: A measure of the degree of deformation. ● Elastic modulus: The constant of proportionality depends
on the material being deformed and on the nature of the deformation.
for sufficiently small stresses.
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Elasticity in LengthElasticity in Length
● Young’s Modulus:
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Elasticity of ShapeElasticity of Shape
● Shear Modulus:
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Volume ElasticityVolume Elasticity
● Bulk Modulus:
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Typical Values for Elastic ModulusTypical Values for Elastic Modulus