PHYS141

I5-51: SPECIFIC HEAT - ALUMINUM AND COPPER

Category: I5 Laws of Thermodynamics

Purpose: Illustrate calorimitry and to determine experimentally the specific heats of aluminum and of copper.

I5-03: MECHANICAL EQUIVALENT OF HEAT - JOULE'S METHOD

Category: I5 Laws of Thermodynamics

Purpose: Determine the mechanical equivalent of heat.

I4-32: FREEZING WATER BY PUMPING

Category: I4 Changes of State

Purpose: Freeze water by reducing the ambient pressure.

I4-19: CONDENSATION OF STEAM - SODA CAN COLLAPSE

Category: I4 Changes of State

Purpose: Surprising demonstration using condensation of steam.

I4-17: AIR BALLOON ON LIQUID NITROGEN

Category: I4 Changes of State

Purpose: Demonstrate dramatically that the volume of vapor is greater than the volume of the same amount of liquid.

I4-13: CHANGE OF STATE OF LN - POPPING CAN LID

Category: I4 Changes of State

Purpose: Show the increase in volume which accompanies the transition from liquid to gaseous nitrogen.

I3-43: TIRE PRESSURE - UNLOADED AND LOADED

Category: I3 Gases

Purpose: Show that tire pressure does not change when the tire is loaded within its normal operating limits.

I3-42: BOYLED MARSHMALLOWS

Category: I3 Gases

Purpose: Amusing demonstration of Boyle's Law.

I3-31: IDEAL GAS LAW - VOLUME OF ONE MOLE

Category: I3 Gases

Purpose: Demonstrate that one mole of gas occupies 22.4 liters at STP.

H3-23: RESONANCE TUBE - OSCILLATOR, PLUNGER AND MICROPHONE

Category: H3 Standing Sound Waves

Purpose: Demonstrate standing sound waves in a closed tube.

H3-13: ROARING TUBE - 8 FT

Category: H3 Standing Sound Waves

Purpose: Demonstrate standing sound waves in air excited by convection currents.

H3-05: KUNDT'S TUBE - OSCILLATOR DRIVEN

Category: H3 Standing Sound Waves

Purpose: Demonstrate standing waves in an air column.

H2-55: BEATS AND RESONANCE - TUNING BOXES

Category: H2 Wave Properties of Sound

Purpose: Illustrate beats and resonance.

H2-26: PHASE REVERSAL BETWEEN STEREO SPEAKERS - MUSIC

Category: H2 Wave Properties of Sound

Purpose: Demonstrate interference of sound in a dramatic way.

G3-52: ROPE WAVE GENERATOR - ROPE TENSION VS WAVELENGTH

Category: G3 Mechanical Waves - One Dimensional

Purpose: Observe the change in wavelength of a vibrating rope as the tension is varied.

G1-82: PENDULUM WAVES

Category: G1 Simple Harmonic Motion

Purpose: Create waves in a very dramatic way using a series of fifteen carefully adjusted independent pendula.

G1-54: MASS'S DOUBLE PENDULUM

Category: G1 Simple Harmonic Motion

Purpose: Demonstrate the transition of potential energy into energy of oscillation of the pendulum, and the operation of an escapement.

G1-35: MASS ON SPRING - EFFICIENT MODEL

Category: G1 Simple Harmonic Motion

Purpose: Illustrate the motion of a mass on a spring.

G1-34: AIR TRACK - SIMPLE HARMONIC MOTION

Category: G1 Simple Harmonic Motion

Purpose: Demonstrate simple harmonic motion of a mass held by two springs.

F2-07: BUOYANCY - PEPSI AND DIET PEPSI

Category: F2 Buoyancy

Purpose: Show the difference in density between soft drinks with and without sugar.

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F2-01 ARCHIMEDES' PRINCIPLE

Demonstrates the buoyant force on a body submerged in a fluid to be equal to the weight of the displaced… Read More
F2-02: CARTESIAN DIVER

Demonstrate a variety of fluid mechanics phenomena, including the compressibility of a gas, the incompressibility of water, Boyle's law, Pascal's… Read More
F2-03: CARTESIAN DIVER - EXPLICIT VERSION

Demonstrate explicitly how a Cartesian diver works by showing how the water enters the diver when the pressure in the… Read More
F2-04: BUOYANCY - SPHERE AND WATER

Challenge the students' thinking about the buoyant force by considering the question: "Will a round object, without a flat top… Read More
F2-05 BUOYANCY - BOAT AND ROCK

Illustrates buoyancy Read More
F2-06: BUOYANCY - SINKING BOAT

Illustrates buoyancy Read More
F2-07: BUOYANCY - PEPSI AND DIET PEPSI

Show the difference in density between soft drinks with and without sugar. Read More
F2-08: BUOYANCY - BATTLESHIP IN BATHTUB

Illustrate Archimedes' Law in a counterintuitive manner. Read More
F2-10: BUOYANT BUBBLES

Demonstrate buoyancy and diffusion in an interesting way. Read More
F2-11: HYDROMETER

Measure the density of a liquid. Read More
F2-12: HOT AIR BALLOON

Show that hot air is less dense than cold air by operating a hot air balloon. Read More
F2-13: BOUYANCY - EXPANDING BALLOON CONUNDRUM

Conundrum involving weight of an expanding balloon. Read More
F2-21 REACTION TO BUOYANT FORCE

Demonstrates the reaction force using a liquid. Read More
F2-22: BUOYANCY PARADOX - ACCELERATED FRAME

Illustrate dramatically the concept of buoyancy. Read More
F2-23: BUOYANCY PARADOX - INVERTED BLOCK

Illustrate buoyancy in a paradoxical way. Read More
F2-24: ACCELERATED BUOYANT BALL

Illustrate buoyancy in a paradoxical way. Read More
F2-25: BALANCE PARADOX - BUOYANCY WITH CROSSOVER

Present buoyancy in a paradoxical way. Read More
F2-26: BUOYANCY PARADOX - BALL IN TWO LIQUIDS

Demonstrate buoyancy with a counterintuitive element. Read More
F2-27: Buoyancy Paradox - Two Spheres

Buoyancy of two spheres on a balance Read More
F2-31: BUOYANT BALLS IN BEANS

Illustrate buoyancy in a surprising way. Read More
F2-32: FLOATING SQUARE BAR

Illustrate buoyancy and the orientation in which a long square bar floats in a very dramatic way. Read More
F2-41: DENSITY - SLOPE OF MASS VS VOLUME GRAPH

Determine the density of water. Read More