PHYS270

M1-04: LASER DIFFRACTION - WIRES

M1-04: LASER DIFFRACTION - WIRES

Category: M1 Interference and Diffraction - Slits and Gratings

Purpose: Show diffraction by wires of different size.

M1-01: LASER DIFFRACTION - FIXED SINGLE SLIT

M1-01: LASER DIFFRACTION - FIXED SINGLE SLIT

Category: M1 Interference and Diffraction - Slits and Gratings

Purpose: Demonstrate single slit diffraction.

N1-01: PRISMATIC SPECTRUM OF WHITE LIGHT - POINT SOURCE

N1-01: PRISMATIC SPECTRUM OF WHITE LIGHT - POINT SOURCE

Category: N1 Continuous Spectra

Purpose: Demonstrate continuous spectrum

P2-41: POTENTIAL WELL - HILL TRACK MODEL

P2-41: POTENTIAL WELL - HILL TRACK MODEL

Category: P2 Quantum Mechanics

Purpose: Illustrate the concept of a quantum mechanical potential well.

P2-11: INTERFERENCE OF PHOTONS

P2-11: INTERFERENCE OF PHOTONS

Category: P2 Quantum Mechanics

Purpose: Demonstrate two-slit interference of single photons.

P2-02: PHOTOELECTRIC EFFECT IN ZINC - ARC LAMP

P2-02: PHOTOELECTRIC EFFECT IN ZINC - ARC LAMP

Category: P2 Quantum Mechanics

Purpose: Demonstrate the emission of photoelectrons.

P4-04: COSMIC RAYS

P4-04: COSMIC RAYS

Category: P4 Nuclei and Particles

Purpose: Demonstrate the existence of cosmic rays.

M7-07: THREE CROSSED POLAROIDS - E FIELD COMPONENTS

M7-07: THREE CROSSED POLAROIDS - E FIELD COMPONENTS

Category: M7 Linear Polarization and Scattering

Purpose: Demonstrate that electric fields are vectors

K2-63: DISPLACEMENT CURRENT MODEL

K2-63: DISPLACEMENT CURRENT MODEL

Category: K2 Electromagnetic Induction

Purpose: Illustrate the geometry for displacement current

K2-11: SELF-INDUCTION

K2-11: SELF-INDUCTION

Category: K2 Electromagnetic Induction

Purpose: Demonstrate self-induction

K7-04: RL CIRCUIT - FIELD COLLAPSE WITH FLUORESCENT BULB

K7-04: RL CIRCUIT - FIELD COLLAPSE WITH FLUORESCENT BULB

Category: K7 RLC Circuits

Purpose: Demonstrate the magnitude of induced voltage

J7-21: HYSTERESIS

J7-21: HYSTERESIS

Category: J7 Magnetic Materials

Purpose: Demonstrate the hysteresis loop for an iron transformer core

K2-41: LENZ'S LAW - ROLLING RODS

K2-41: LENZ'S LAW - ROLLING RODS

Category: K2 Electromagnetic Induction

Purpose: Demonstrate eddy currents and Lenz's law

K1-23: TORQUE ON CURRENT LOOP - MODEL

K1-23: TORQUE ON CURRENT LOOP - MODEL

Category: K1 Forces on Moving Particles

Purpose: Model torque on a current loop due to magnetic field.

K1-05: FORCE BETWEEN CURRENT-CARRYING COILS

K1-05: FORCE BETWEEN CURRENT-CARRYING COILS

Category: K1 Forces on Moving Particles

Purpose: Demonstrate that current-carrying coils produce magnetic fields and interact like bar magnets

J5-51: GAUSSMETER

J5-51: GAUSSMETER

Category: J5 Magnetostatics

Purpose: Demonstrate use of a gaussmeter

J5-35: MAGNETS INTERACTING ON PIVOTS

J5-35: MAGNETS INTERACTING ON PIVOTS

Category: J5 Magnetostatics

Purpose: Show the interaction between two bar magnets

J5-15: MAGNETIC FIELD OF A RING OF CURRENT - MODEL

J5-15: MAGNETIC FIELD OF A RING OF CURRENT - MODEL

Category: J5 Magnetostatics

Purpose: Model the geometry for the magnetic field along the axis of a ring of current

J5-04: MAGNETS

J5-04: MAGNETS

Category: J5 Magnetostatics

Purpose: Show various magnets

J1-12: INDUCTION - ELECTROSCOPE

J1-12: INDUCTION - ELECTROSCOPE

Category: J1 Electrostatic Charge and Force

Purpose: Demonstrate charging by induction.

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H2-01: FOCUSING OF SOUND WITH CONCAVE REFLECTORS

Demonstrate how sound waves can be focused by concave reflectors. Read More
H2-02: PARABOLIC MICROPHONE

Show what a parabolic microphone is and to demonstrate its sensitivity individually. Read More
H2-03: ACOUSTIC RADAR

Illustrate how RADAR and SONAR work Read More
H2-11: SOUND LENS

Demonstrate focusing of sound by refraction in a sound lens Read More
H2-21 AUDIBLE YOUNG'S EXPERIMENT - GROUP LISTENING

Demonstrates interference of sound waves with two coherent sources Read More
H2-22: INTERFERENCE - TRANSPARENCIES

An optical analog to the interference pattern from two identical sound sources. Read More
H2-24: AUDIBLE YOUNG'S EXPERIMENT - MIC AND SCOPE

Demonstrate interference of sound with two coherent sound sources in a quantitative way. Read More
H2-25: QUINCKE'S INTERFERENCE TUBES

Demonstrate interference of sound waves in a perhaps surprising way. Read More
H2-26: PHASE REVERSAL BETWEEN STEREO SPEAKERS - MUSIC

Demonstrate interference of sound in a dramatic way. Read More
H2-27: PHASE REVERSAL BETWEEN STEREO SPEAKERS - OSCILLATOR

Dramatically demonstrate interference between two identical sources. Read More
H2-28: FOURIER SYNTHESIZER - ADDITION OF WAVES

Demonstrate addition of two sine waves with variable phase difference. Read More
H2-31: ACOUSTIC COLLIMATOR

Demonstrate the effect of frequency on diffraction of sound. Read More
H2-32: SPEAKER WITH BAFFLE

Demonstrates diffraction and interference of sound waves Read More
H2-33: SPEAKER AND EXPONENTIAL HORN

Demonstrate the effect of an exponential horn enclosure. Read More
H2-41 DOPPLER BALL

Demonstrates Doppler effect Read More
H2-42 DOPPLER EFFECT - TUNING FORK ON STRING

Demonstrates Doppler effect Read More
H2-51 BEATS - AUDIO OSCILLATORS, SPEAKER & OSCILLOSCOPE

Hear audio beats and see their wave forms on an oscilloscope Read More
H2-52: BEATS AND RESONANCE - TUNING BARS

Demonstrate beats, and to demonstrate resonance between two identical tuning bar resonators. Read More
H2-53 BEATS - AUDIO OSCILLATORS AND SPEAKERS

Hear beats Read More
H2-54: BEATS - MOIRE PATTERN MODEL

Model for beats between mistuned audio oscillators. Read More
H2-55: BEATS AND RESONANCE - TUNING BOXES

Illustrate beats and resonance. Read More

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