PHYS122

P2-24: GIANT-LIGHT BULB

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?

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

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

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

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

M6-24: HOLOGRAM - REFLECTION - WEREWOLF

Category: M6 Holograms

Purpose: White light reflection hologram.

M6-22: HOLOGRAM - REFLECTION - ORRERY

M6-22: HOLOGRAM - REFLECTION - ORRERY

Category: M6 Holograms

Purpose: White light reflection hologram.

K2-24: MUTUAL INDUCTION

K2-24: MUTUAL INDUCTION

Category: K2 Electromagnetic Induction

Purpose: Demonstrate mutual induction.

M6-12: HOLOGRAM - MULTIPLEX - THE KISS

M6-12: HOLOGRAM - MULTIPLEX - THE KISS

Category: M6 Holograms

Purpose: Walk-by multiplex hologram.

K2-21: RUHMKORFF INDUCTION COIL

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

M6-01: HOLOGRAM - LASER LIGHT - VOLKSWAGEN

Category: M6 Holograms

Purpose: View a laser light hologram.

J7-10: DIAMAGNETIC REPULSION OF WATER

J7-10: DIAMAGNETIC REPULSION OF WATER

Category: J7 Magnetic Materials

Purpose: Demonstrate diamagnetism of water

J7-01: LODESTONE

J7-01: LODESTONE

Category: J7 Magnetic Materials

Purpose: Demonstrate the natural magnetism of lodestone.

J6-33: ELECTROMAGNETIC GUN

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

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

J5-05: MAGNET MODEL - FIELD LINES

Category: J5 Magnetostatics

Purpose: Visualize the magnetic field of a bar magnet.

J3-22: FARADAY CAGE - ELECTROSCOPE

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

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

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

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

Demonstrate continuous spectrum. Read More
N1-03: PRISMATIC SPECTRUM OF WHITE LIGHT - WATER PRISM

Demonstrate continuous spectrum using water as the dispersing medium. Read More
N1-05 SPECTRA - VISIBLE AND INVISIBLE

Demonstrates continuous spectrum Read More
N1-06: POLYPRISM SPECTRA

Demonstrate continuous spectra with several different types of glass. Read More
N1-07: VARIATION OF SPECTRUM WITH LAMP INTENSITY

Demonstrate continuous spectrum as the brightness of the source changes Read More
N1-08: GOETHE'S PUZZLE

Show the view of a slide through a prism and argue about color theory. Read More
N1-09: COMPLEMENTARY SPECTRUM

Display the spectrum of a "negative" slit. Read More
N1-11: DIFFRACTION SPECTRUM OF WHITE LIGHT - POINT SOURCE

Demonstrate continuous spectrum. Read More
N1-12: DIFFRACTION SPECTRA - GRATING ON OVERHEAD PROJECTOR

Very simple white light diffraction spectrum. Read More
N1-13: DIFFRACTION SPECTRUM OF WHITE LIGHT - PORTABLE

Individual observation of white light spectrum. Read More
N1-14: REFLECTION GRATING - LARGE

Show a spectrum from a small bright source. Read More
N1-21: COLOR SEPARATION AND RECOMBINATION BY PRISMS

Show how a prism can recombine previously dispersed white light. Read More
N1-22: OPTICAL BOARD - PRISMS - SEPARATE AND RECOMBINE

Separate white light into its component colors with a prism and use an identical prism to recombine the light. Read More
N1-23: FINE RESOLUTION OF SPECTRUM USING TWO PRISMS

Increase the dispersion in a white light spectrum by adding a second prism. Read More
N1-31: SUN DOG - MODEL

Show how a "sun dog" is formed. Read More
N1-32: ICE CRYSTALS - PAPER MODELS

Illustrate how two types of ice crystals formed high in the atmosphere float downward through the air with preferred orientations. Read More
N1-41: RAINDROP RAY MODEL

Illustrate formation of a rainbow. Read More
N1-42: RAINDROP MECHANICAL MODEL

Illustrate rays in formation of a rainbow. Read More
N1-43: RAINBOW - GLASS BEAD MODEL

Observe an almost complete circular rainbow formed by glass beads. Read More
N1-44: OPTICAL BOARD - RAINBOW

Demonstrates internal reflection and dispersion of light Read More
N1-45: RAINBOW - WATER FLASK

Demonstrate a large angle rainbow. Read More
N1-51: SPECTROMETER - HAND HELD

Demonstrate spectra individually. Read More
N1-61: REFRACTION OF LIGHT IN DIAMOND

Show how a diamond produces colors from white light. Read More

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