PHYS142
K7-26: RLC CIRCUIT - 0.3 HZ RESONANCE
Category: K7 RLC Circuits
Purpose:
Plot a graph of resonance behavior in a very low frequency resonant circuit.
K8-51: MICROWAVE OVEN
Category: K8 Electromagnetic Waves and Sources
Purpose:
Demonstrate operation and experimentation with a microwave oven.
M5-04: LASER DIFFRACTION - EXOTIC ARRAYS
Purpose:
Show diffraction by arrays of complex figures.
L5-24: FIBER OPTICS COMMUNICATION LINE
Category: L5 Total Internal Reflection
Purpose:
Demonstrate transmission of laser light by a real fiber optics communication line.
M1-21: LASER DIFFRACTION - MULTIPLE SLITS
Purpose:
Show the transition from one slit to multiple slits and the diffraction grating.
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
K7-04: RL CIRCUIT - FIELD COLLAPSE WITH FLUORESCENT BULB
Category: K7 RLC Circuits
Purpose:
Demonstrate the magnitude of induced voltage
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
J3-02: ELECTRIC FIELD OF RING OF CHARGE - MODEL
Category: J3 Electric Fields and Potential
Purpose:
Aid in the visualization of the electric field of a ring of charge
J4-41: CAPACITORS
Category: J4 Capacitance and Polarization
Purpose:
Display a variety of capacitors
K8-42: RADIOWAVES - ENERGY AND DIPOLE PATTERN
Category: K8 Electromagnetic Waves and Sources
Purpose:
Demonstrates transmission of energy in electromagnetic waves. Shows the radiation pattern of the dipole antenna
M1-02 LASER DIFFRACTION - VARIABLE SINGLE SLIT
Purpose:
Demonstrates single slit diffraction
L5-23 FIBER OPTICS TREE
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
L4-31 DISAPPEARANCE OF GLASS IN LIQUID
Category: L4 Refraction
Purpose:
Demonstrates how index of refraction affects what wesee in a fluid bath
L4-06 REFRACTION IN CLOUDY WATER
Category: L4 Refraction
Purpose:
Demonstrates a light ray bends when it enters a different medium at an oblique angle.
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J5-01 MAGNETIC FIELD OF A BAR MAGNET
Visualize the magnetic field around a bar magnet Read More
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J5-02: MAGNETIC FIELD - EME SET - BAR MAGNET
Visualize the magnetic field of a bar magnet. Read More
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J5-03: MAGNETIC FIELD OF A BAR MAGNET - 3D VERSION
Three-dimensional field visualization of magnetic field of bar magnet. Read More
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J5-04: MAGNETS
Show various magnets
Read More
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J5-05: MAGNET MODEL - FIELD LINES
Visualize the magnetic field of a bar magnet. Read More
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J5-06 MAGNET - BROKEN BUT NO MONOPOLE
Demonstrates that magnet poles come in pairs Read More
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J5-07: MAGNETIZED WIRE FIELD LINE INDICATOR
Demonstration of field lines using magnetized wires. Read More
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J5-11: MAGNETIC FIELD - EME SET - STRAIGHT WIRE
Visualize the magnetic field around a straight wire. Read More
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J5-12: MAGNETIC FIELD - EME SET - TWO-TURN HELIX
Visualize the magnetic field around a two-turn helix. Read More
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J5-13: MAGNETIC FIELD - EME SET - SOLENOIDS
Visualize the magnetic field around a solenoid. Read More
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J5-14 MAGNETIC FIELD AROUND SINGLE AND PARALLEL WIRES
Visualize the magnetic field around a wire and near two wires carrying opposite currents
Read More
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J5-15: MAGNETIC FIELD OF A RING OF CURRENT - MODEL
Model the geometry for the magnetic field along the axis of a ring of current
Read More
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J5-16 MAGNETIC FIELD OF WIRE, LOOP, SOLENOID
Visualize magnetic field lines for simple current configurations
Read More
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J5-17: HELMHOLTZ COILS AND HALL PROBE
Investigate quantitatively the magnetic field of a pair of Helmholtz coils. Read More
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J5-18: OERSTED EXPERIMENT
Demonstrates that magnetic fields are generated around current-carrying wires Read More
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J5-19: MAGNETIC FIELDS OF PARALLEL AND ANTIPARALLEL CURRENTS
Show the magnetic fields of parallel and antiparallel current-carrying wires. Read More
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J5-20 OERSTED EXPERIMENT- LARGE COIL AND COMPASS
Demonstrates that magnetic fields are generated around current-carrying wires
Read More
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J5-30: OMEGA LEVITRON
how an interesting demonstration of magnetism. Read More
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J5-31: QUADRUPOLE MAGNETIC FILED
Visualize the magnetic field of a quadrupole magnet. Read More
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J5-32: MAGNETIC LEVITATION - PERMANENT MAGNET AND ELECTROMAGNET
Demonstrate magnetic levitation. Read More
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J5-33 TORQUE ON A BAR MAGNET
Demonstrate the torque on a bar magnet in a magnetic field. Read More
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J5-35: MAGNETS INTERACTING ON PIVOTS
Show the interaction between two bar magnets
Read More
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J5-36: MAGNETIC SPINNER
Demonstrate magnetic levitation. Read More
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J5-41: FLUX MODEL - MAGNETOSTATIC
Illustrate flux through plane at an angle. Read More
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J5-51: GAUSSMETER
Demonstrate use of a gaussmeter
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