The Simple Pendulumcommunity.wvu.edu/~miholcomb/Chapter 13C, Pendulum.pdf · 2020-04-15 · Period...
Transcript of The Simple Pendulumcommunity.wvu.edu/~miholcomb/Chapter 13C, Pendulum.pdf · 2020-04-15 · Period...
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The Simple Pendulum
• The simple pendulum is an example of simple harmonic
motion
• Consists of small object suspended from the end of a cord.
Assumptions:
– Cord doesn’t stretch
– Mass of cord is negligible
What causes it to swing back and forth?
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The oscillation
period of a spring
depends on how
springy it is and
what mass is on it.
eff
springk
mT π2=
Analogy with springs
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z
The Simple Pendulum
• The simple pendulum is an example of simple harmonic motion
Gravity causes torque, restoring force for oscillations:
F = -mg sin θ
If θ is small (small amplitude oscillations):
L
x
L
z≈=θsin
xL
mgFpendulum −=
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Pendulum = Simple Harmonic Motion
xL
mgFpendulum −=
Restoring force is proportional to
negative of displacement (Fspring= -kx)
Effective “spring constant” is keff = mg/L
eff
springk
mT π2=
g
LTpendulum π2=
bob
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Pendulum = Simple Harmonic Motion
xL
mgFpendulum −=
Restoring force is proportional to
negative of displacement (Fspring= -kx)
Effective “spring constant” is keff = mg/L
eff
springk
mT π2=
g
LTpendulum π2=
For a pendulum clock, the timing mechanism is designed by adjusting L
bob
Period of simple pendulum is independent of mass or amplitude;
instead depends on the length of cord
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Let’s Discuss The Homework
A man enters a tall tower, needing to know its height.
He notes that a long pendulum extends from the
ceiling almost to the floor and that its period is 26.0 s.
(a) How tall is the tower?
(b) If this pendulum is taken to the Moon, where the
free-fall acceleration is 1.67 m/s2, what is the period
there? (Do similar on next slide.)
g
LT π2=
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Pendulum: Calculation
A particular grandfather clock has a period of 2
seconds on Earth. If this clock were placed on
Mars, what would its period of oscillation be?
(Acceleration due to gravity on Mars is 3.7 m/s2.)
g
LT π2=
In case you are curious, the
acceleration due to gravity depends
on the mass and radius of the object
(Section 7.5).
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Pendulum: Conceptual
If a pendulum clock keeps perfect time at the base of a mountain, will it also keep
perfect time when it is moved to the top of the mountain? If not, will the pendulum
period be slightly larger or smaller?
A) The same B) Larger C) Smaller
g
LT π2=
T will be bigger so it will take longer to complete an oscillation.
effk
mT π2=
spring pendulumx
L
mgF −=
Q150
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Damped Oscillations
Why does a child stop swinging
if not continuously pushed?
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Damped Oscillations
Why does a child stop swinging
if not continuously pushed?
When work is done by a dissipative force (friction or air
resistance), not all of the mechanical energy is conserved.
This means not all of her potential energy
at the top of each swing is converted into
kinetic energy so her next swing is not
as high.
The period of oscillations stays the same.
The amplitude decreases with time.
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A.
B.
C.
Q144
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A.
B.
C.
Q145
g
LTpendulum π2=
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A. t = T/4
B. t = T/2
C. t = 3T/4
D. t = T
At which of the following times does the object
have the most negative velocity vx?
Q146
This is an x-t graph
for an object in
simple harmonic
motion.
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A. t = T/8
B. t = T/4
C. t = 3T/8
D. t = T/2
E. more than one of the above
At which of the following times is the
kinetic energy of the object the greatest?
Q147
This is an x-t graph
for an object in
simple harmonic
motion.
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A. t = T/8
B. t = T/4
C. t = 3T/8
D. t = T/2
E. more than one of the above
At which of the following times is the potential
energy of the spring the greatest?
Q148
This is an x-t graph
for an object in
simple harmonic
motion.
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Practice
A 163 g block connected to a light spring
with a force constant of k = 7 N/m is free
to oscillate on a horizontal, frictionless
surface. The block is displaced 3 cm from
equilibrium and released from rest.
What is its period and angular frequency?
eff
springk
mT π2=
m
kƒ2 =π=ω
tAx ωcos=
tAv ωω sin−=
tAa ωω cos2−=