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3B SCIENTIFIC
3B SCIENTIFIC
3B SCIENTIFIC
3B SCIENTIFIC
3B SCIENTIFIC® PHYSICS
Torsion Pendulum According to Prof. Pohl 1002956
Operating instructions
06/18 ALF
bl
bm
bn
The torsion pendulum may be used to investigate free,
forced and chaotic oscillations with various degrees of
damping.
Experiment topics:
• Free rotary oscillations at various degrees of damp-
ing (oscillations with light damping, aperiodic os-
cillation and aperiodic limit)
• Forced rotary oscillations and their resonance
curves at various degrees of damping
• Phase displacement between the exciter and reso-
nator during resonance
• Chaotic rotary oscillations
• Static determination of the direction variable D
• Dynamic determination of the moment of inertia J
1. Safety instructions
• When removing the torsional pendulum from the
packaging do not touch the scale ring. This could
PHYSICS
PHYSICS
PHYSICS
PHYSICS
9
8
7
6
5
4
bo
bp
bq
br
1
Exciter motor
2
Control knob for fine adjustment of the exciter voltage
3
Control knob for coarse adjustment of the exciter voltage
4
Scale ring
5
Pendulum body
6
Coil spring
7
Pointer for the exciter phase angle
8
Pointer for the pendulum's phase angle
9
Pointer for the pendulum's deflection
3
bl
Exciter
bm
Eddy current brake
bn
Guide slot and screw to set the exciter amplitude
2
bo
Connecting rod
bp
Eccentric drive wheel
bq
4-mm safety socket for exciter voltage measurement
1
br
4-mm safety sockets for the exciter motor power supply
bs
4-mm safety sockets for the eddy current brake power
supply
bs
lead to damage. Always remove using the handles
provided in the internal packaging.
• When carrying the torsional pendulum always hold
it by the base plate.
• Never exceed the maximum permissible supply
voltage for the exciter motor (24 V DC).
• Do not subject the torsional pendulum to any un-
necessary mechanical stress.
2. Description, technical data
The Professor Pohl torsional pendulum consists of a
wooden base plate with an oscillating system and an
electric motor mounted on top. The oscillating system
is a ball-bearing mounted copper wheel (5), which is
connected to the exciter rod via a coil spring (6) that
provides the restoring torque. A DC motor with coarse
and fine speed adjustment is used to excite the tor-
sional pendulum. Excitement is brought about via an
eccentric wheel (14) with connecting rod (13) which
6
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Summary of Contents for 3B SCIENTIFIC PHYSICS 1002956
- Page 1 3B SCIENTIFIC 3B SCIENTIFIC 3B SCIENTIFIC® PHYSICS PHYSICS PHYSICS Torsion Pendulum According to Prof. Pohl 1002956 Operating instructions 06/18 ALF Exciter motor Control knob for fine adjustment of the exciter voltage Control knob for coarse adjustment of the exciter voltage...
- Page 2 unwinds the coil spring then compresses it again in a harmonic rotary oscillations the restoring torque is proportional to the deflection angle ϕ: periodic sequence and thereby initiates the oscillation of the copper wheel. The electromagnetic eddy cur- M = D · ϕ rent brake (11) is used for damping.
- Page 3 By inserting δ = Λ / T , ω = 2 π / T and ω = 2 π / T Stronger damping does not result in excessive ampli- into the equation tude. For the system’s zero phase angle Ψ the following is true: ω...
- Page 4 5. Example experiments Ι Ι Ι Ι Ι = 0.2 A 5.1 Free damped rotary oscillations ϕ • To determine the logarithmic decrement Λ, the ϕ Λ – – Ø – amplitudes are measured and averaged out over 0 –15 –15 –15 –15...
- Page 5 • After measuring the period T the natural frequency of the system ω can be obtained from ω = 2 π/T = 3.3069 Hz • The most extreme deflection arises at a motor volt- age of 7.6 V, i.e. the resonance case occurs. •...