PHYS132
H2-33: SPEAKER AND EXPONENTIAL HORN
Category: H2 Wave Properties of Sound
Purpose:
Demonstrate the effect of an exponential horn enclosure.
G3-24: SLINKY ON LECTURE TABLE - TRAVELING WAVES
Category: G3 Mechanical Waves - One Dimensional
Purpose:
Show travelling waves.
G3-03: SHIVE WAVE MACHINE - REFLECTION OF PULSES
Category: G3 Mechanical Waves - One Dimensional
Purpose:
Demonstrate reflection of pulses from fixed ends and free ends.
G1-37: MASS ON SPRING WITH ULTRASONIC RANGER
Category: G1 Simple Harmonic Motion
Purpose:
Plot graphs of position, velocity and acceleration for a mass oscillating on a spring.
G2-09: FORCED HARMONIC MOTION WITH SONAR
Category: G2 Resonance and Coupled Oscillations
Purpose:
Plot a graph of forced damped harmonic motion near the resonant frequency.
G2-05: AIR TRACK - DRIVEN AND DAMPED OSCILLATIONS
Category: G2 Resonance and Coupled Oscillations
Purpose:
Illustrate the behavior of a driven and damped oscillator.
L4-22: MIRAGE - LASER AND HOT WIRE
Category: L4 Refraction
Purpose:
Demonstrate how an optical mirage is created
K2-40: MAGNETIC ACCELERATOR
Category: K2 Electromagnetic Induction
Purpose:
Demonstrate magnetic potential energy
M7-31 TYNDALL'S EXPERIMENT - COLLOIDAL SUNSET
Category: M7 Linear Polarization and Scattering
Purpose:
Colloidal sunset demonstration
L5-12 PLEXIGLASS SPIRAL
Category: L5 Total Internal Reflection
Purpose:
Demonstrates total internal reflection
L5-11 LASER WATERFALL
Category: L5 Total Internal Reflection
Purpose:
Demonstrates total internal reflection of a laser beam in a water jet
L3-31 GIANT 160cm MIRROR - CONCAVE AND CONVEX
Category: L3 Curved Mirrors
Purpose:
Demonstrates images from concave and convex mirrors
L3-16 FOCUSING OF HEAT WAVES BY MIRRORS
Category: L3 Curved Mirrors
Purpose:
Demonstrates that concave mirrors can focus heat waves
H3-14 TWIRL-A-TUNE
Category: H3 Standing Sound Waves
Purpose:
Demonstrates standing wave resonances in an open tube
H2-32: SPEAKER WITH BAFFLE
Category: H2 Wave Properties of Sound
Purpose:
Demonstrates diffraction and interference of sound waves
H2-21 AUDIBLE YOUNG'S EXPERIMENT - GROUP LISTENING
Category: H2 Wave Properties of Sound
Purpose:
Demonstrates interference of sound waves with two coherent sources
H1-02 SPEAKER AND CANDLE
Category: H1 Nature of Sound
Purpose:
Demontrates longitudinal behavior of sound waves
H1-01 BELL IN VACUUM
Category: H1 Nature of Sound
Purpose:
Demonstrates sound wave requirement for a medium
G3-28 SUSPENDED SLINKY
Category: G3 Mechanical Waves - One Dimensional
Purpose:
Shows longitudinal and transverse traveling waves & standing waves
G3-21 TRANSVERSE WAVES ON A LONG SPRING
Category: G3 Mechanical Waves - One Dimensional
Purpose:
Demonstrates traveling waves
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H3-01: STANDING SOUND WAVES - TWO SOURCES
Demonstrate the origin of standing waves from two identical sources. Read More
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H3-02: STANDING SOUND WAVES - REFLECTION
Demonstrate the origin of standing waves from one source and its reflection. Read More
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H3-03: REFLECTION OF PULSES IN TUBE
Demonstrate the origin of standing waves from one source and its reflection. Read More
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H3-04: KUNDT'S TUBE - STROKED ROD
Demonstrate standing waves in an air column. Read More
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H3-05: KUNDT'S TUBE - OSCILLATOR DRIVEN
Demonstrate standing waves in an air column. Read More
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H3-11: TUNING FORKS AND RESONANT TUBE
Illustrate resonance in an air column. Read More
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H3-12: ROARING TUBE - 4 FT
Demonstrate standing sound waves in air excited by convection currents. Read More
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H3-13: ROARING TUBE - 8 FT
Demonstrate standing sound waves in air excited by convection currents. Read More
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H3-14 TWIRL-A-TUNE
Demonstrates standing wave resonances in an open tube
Read More
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H3-15: TWIRL-A-TUNE AND VACUUM CLEANER
Demonstrate standing wave resonances in an open tube. Read More
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H3-16: SINGING PIPES
Show sound resonance created by convection currents in a tube. Read More
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H3-17 FLAME TUBE
Demonstrates standing waves in a tube
Read More
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H3-21: SOUND RESONANCE IN WATER TUBE
Demonstrate standing waves in a closed tube. Read More
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H3-22: RESONANCE TUBE - OSCILLATOR AND PLUNGER
Demonstrate standing waves in a closed tube. Read More
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H3-23: RESONANCE TUBE - OSCILLATOR, PLUNGER AND MICROPHONE
Demonstrate standing sound waves in a closed tube. Read More
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H3-24 OPEN AND CLOSED PIPES
Demonstrates open and closed tube standing resonances
Read More
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H3-25: GALTON'S WHISTLE
Produce high-frequency tones. Read More
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H3-31: DUCK CALL
Quack like a duck Read More
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H3-32: RESONANCE IN TUBE - POURING WATER
Demonstrate standing wave resonances in an acoustical closed tube. Read More
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H3-33: RESONANCE FROM WHITE NOISE IN VARIABLE TUBE
Demonstrate resonance in a closed tube, and to show that noise contains a large range of frequencies.. Read More
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H3-41: RESONANCE CURVE - HELMHOLTZ RESONATOR
Demonstrate the resonance behavior of a Helmholtz resonator. Read More
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H3-42: RESONANCE CURVES - OPEN AND CLOSED TUBES
Demonstrate the resonance behavior of open and closed tubes. Read More
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H3-51: SONOMETER WITH TUNING PEGS
Demonstrate standing waves in a stretched wire and to demonstrate Mersenne's first and second laws. Read More
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H3-52: SONOMETER WITH WEIGHTS
Demonstrate standing waves in a stretched wire and to demonstrate Mersenne's laws. Read More
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H3-61 BEAKER BREAKER
Breaks a glass beaker with sound
Read More
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H3-62: TEACUP STANDING WAVES
Demonstrate circular standing waves in an interesting way. Read More
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H3-71 STROKED ALUMINUM ROD
Illustrates longitudinal standing waves in an aluminum rod.
Read More
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H3-72: TUNING RODS
Hear longitudinal standing wave resonances in aluminum rods. Read More
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H3-73: TUNING RODS - SUSPENDED
Illustrate transverse standing waves in aluminum rods. Read More
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H3-74: TUNING BAR PARADOX - EFFECT OF WIDTH
Illustrate transverse vibrations of a solid bar struck in the center. Read More
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