PHYS122
P2-24: GIANT-LIGHT BULB
Category: P2 Quantum Mechanics
Purpose:
Demonstrate color and intensity changes of blackbody radiation with temperature.
K7-15: CURRENT IN RC CIRCUIT?
Category: K7 RLC Circuits
Purpose:
Demonstrate charging of a capacitor in a possibly counterintuitive way.
K5-44: NON-OHMIC DEVICE - LIGHT BULB
Category: K5 Electrical Properties of Matter
Purpose:
Show the change in resistance of a light bulb with temperature.
K5-36: RESISTORS AT LN TEMPERATURE - LIGHT BULB INDICATOR
Category: K5 Electrical Properties of Matter
Purpose:
Demonstrate materials with both positive and negative temperature coefficients of resistance.
K5-13: ELECTRIC CURRENT - MODEL
Category: K5 Electrical Properties of Matter
Purpose:
Indicate how electrons really flow through a conductor.
M6-24: HOLOGRAM - REFLECTION - WEREWOLF
Category: M6 Holograms
Purpose:
White light reflection hologram.
M6-22: HOLOGRAM - REFLECTION - ORRERY
Category: M6 Holograms
Purpose:
White light reflection hologram.
K2-24: MUTUAL INDUCTION
Category: K2 Electromagnetic Induction
Purpose:
Demonstrate mutual induction.
K2-21: RUHMKORFF INDUCTION COIL
Category: K2 Electromagnetic Induction
Purpose:
Demonstrate induction of a very high voltage using a small voltage source.
M6-01: HOLOGRAM - LASER LIGHT - VOLKSWAGEN
Category: M6 Holograms
Purpose:
View a laser light hologram.
J7-10: DIAMAGNETIC REPULSION OF WATER
Category: J7 Magnetic Materials
Purpose:
Demonstrate diamagnetism of water
J7-01: LODESTONE
Category: J7 Magnetic Materials
Purpose:
Demonstrate the natural magnetism of lodestone.
J6-33: ELECTROMAGNETIC GUN
Category: J6 Electromagnets
Purpose:
Demonstrate the force on a solenoid core, and to contrast forces on magnetic and non-magnetic cores.
J6-31: FORCE ON SOLENOID CORE
Category: J6 Electromagnets
Purpose:
Demonstrate the force exerted on the core of an electromagnet.
J5-05: MAGNET MODEL - FIELD LINES
Category: J5 Magnetostatics
Purpose:
Visualize the magnetic field of a bar magnet.
J3-22: FARADAY CAGE - ELECTROSCOPE
Category: J3 Electric Fields and Potential
Purpose:
Demonstrate that the electric field within a closed surface is zero.
J3-11: EQUIPOTENTIALS/LINES OF FORCE - ONE CHARGE
Category: J3 Electric Fields and Potential
Purpose:
Aid in visualization of equipotentials and lines of force.
J3-07: VAN DE GRAAFF - DISCHARGE TO VARIOUS RADII
Category: J3 Electric Fields and Potential
Purpose:
Demonstrate that for a charged conductor a smaller radius produces a higher electric field.
J3-01: EXISTENCE OF ELECTRIC FIELDS
Category: J3 Electric Fields and Potential
Purpose:
Demonstrate the existence of electric fields and to map them semi-quantitatively.
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G3-01 SHIVE WAVE MACHINE - TRAVELING WAVES
Demonstrates traveling waves
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G3-02: SHIVE WAVE MACHINE - SUPERPOSITION OF PULSES
Demonstrate constructive and destructive interference using pulses. Read More
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G3-03: SHIVE WAVE MACHINE - REFLECTION OF PULSES
Demonstrate reflection of pulses from fixed ends and free ends.
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G3-04: SHIVE WAVE MACHINE - STANDING WAVES
Demonstrate standing waves. Read More
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G3-05: SHIVE WAVE MACHINE - PARTIAL REFLECTIONS
Show that a wave will be partially reflected at a point where the impedance changes. Read More
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G3-06: SHIVE WAVE MACHINE - IMPEDANCE MATCHING
Show that no reflection occurs when the impedance of the load (absorber at right) matches the impedance of the wave machine. Read More
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G3-07: SHIVE WAVE MACHINE - TAPERED TRANSFORMER
Useful for obtaining a reasonably good impedance match between the two large segments of the Shive machine. Read More
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G3-08: SHIVE WAVE MACHINE - FABREY-PEROT INTERFEROMETER
Demonstrate the mechanical analog of the optical Fabrey-Perot interferometer. Read More
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G3-09: SHIVE WAVE MACHINE - FREQUENCY FILTERING
Demonstrate the mechanical analog of the optical Fabrey-Perot interferometer. Read More
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G3-10: SHIVE WAVE MACHINE - BRANCHING
Demonstrate branching and recombining with two wave machines in parallel. Read More
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G3-11: SHIVE WAVE MACHINE - RESONANCE ABSORPTION
Demonstrate resonance absorption of wave energy by a mass-on-spring system. Read More
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G3-20: WAVE APPARATUS
Demonstrate transverse and longitudinal wave motion. Read More
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G3-21 TRANSVERSE WAVES ON A LONG SPRING
Demonstrates traveling waves
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G3-23: TRANSVERSE WAVES ON A LONG SPRING - FREE END
Show reflections at a free end. Read More
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G3-24: SLINKY ON LECTURE TABLE - TRAVELING WAVES
Show travelling waves. Read More
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G3-25: SLINKY ON LECTURE TABLE - IMPEDANCE MISMATCH
Show partial reflections and dependence of wave speed on density of the medium. Read More
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G3-26: AIR TRACK - LONGITUDINAL WAVES
Demonstrate longitudinal waves with a series of spring-coupled air track gliders. Read More
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G3-27: AIR TABLE - TRANSVERSE AND LONGITUDINAL WAVES
Demonstrate transverse and longitudinal waves using an air table. Read More
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G3-28 SUSPENDED SLINKY
Shows longitudinal and transverse traveling waves & standing waves
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G3-29: SUSPENDED SLINKY - PORTABLE
Show longitudinal and transverse traveling waves and standing waves. Read More
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G3-31: Spring and Horns
Show sound waves from a mechanical wave Read More
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G3-41: WAVE MODELS - PROJECTION
Demonstrate standing waves, travelling waves, and superposition of waves. Read More
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G3-42: TORSIONAL WAVES
Demonstrate wave phenomena such as traveling waves, standing waves, and reflection of waves Read More
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G3-43 WHIP
Illustrates transverse wave motion.
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G3-45: RESONANCE OF WIRES
Show standing waves in heavy wires fixed at one end. Read More
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G3-46: STANDING WAVES IN A WIRE LOOP
Illustrate circular standing waves; to use as a model of stationary states in atoms corresponding to standing waves of electrons… Read More
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G3-51 ROPE WAVE GENERATOR - FREQUENCY VS. WAVELENGTH
Show standing waves in heavy wires fixed at one end. Read More
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G3-52: ROPE WAVE GENERATOR - ROPE TENSION VS WAVELENGTH
Observe the change in wavelength of a vibrating rope as the tension is varied. Read More
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G3-53 STANDING WAVES IN A STRING
Demonstrates standing waves on a thin string
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