| 1 |
A2-01 CARTESIAN COORDINATE AXES |
| 4 |
A2-21 MAGNETIC VECTOR BOARD |
| 1 |
A2-22 MAGNETIC VECTORS - LECTURE HALL |
| 1 |
A2-23 VECTOR PRODUCT |
| 1 |
A2-24 TWO-DIMENSIONAL VECTOR ALGEBRA |
| 1 |
B2-01 SUM OF FORCES IN A LINE |
| 1 |
B2-03 EQUILIBRIUM OF FORCES - INCLINED PLANE |
| 1 |
B2-11 EQUILIBRIUM OF FORCES - OHAUS PROJECTION |
| 1 |
B2-12 EQUILIBRIUM OF FORCES - BOARD BACKGROUND |
| 1 |
B2-15 ADDITION OF NON-LINEAR FORCES |
| 1 |
B2-16 VECTOR ADDITION WITH ROPE AND STUDENTS |
| 1 |
B3-11 PULLEY - HUMAN LIFT |
| 1 |
B3-12 PULLEY - MECHANICAL ADVANTAGE |
| 2 |
B3-13 PULLEY VS NO PULLEY |
| 2 |
B3-14 EQUILIBRIUM PARADOX - SCALES AND PULLEY |
| 2 |
B4-01 HOOKE'S LAW |
| 2 |
B4-02 HOOKE'S LAW - COMPRESSING A SPRING |
| 2 |
B4-11 ELASTIC LIMIT OF RUBBER BAND |
| 1 |
B4-31 FAILURE OF WOOD IN COMPRESSION |
| 1 |
C1-01 CENTER OF MASS MOTION - BARBELL |
| 2 |
C1-02 CENTER OF MASS MOTION - PLUMBER'S HELPER |
| 1 |
C1-03 CENTER OF MASS MOTION - CLOWN |
| 1 |
C1-04 CENTER OF MASS - BEAR ON TIGHT ROPE |
| 2 |
C1-11 AIR TRACK - CENTER OF MASS PENDULUM |
| 2 |
C1-12 AIR TRACK - CENTER OF MASS OF COUPLED |
| 1 |
C1-21 AIR TABLE - TOPPLING STICK |
| 5 |
C2-06 BALL DROP ON ROPE - EQUAL AND UNEQUAL INTERVALS |
| 3 |
C2-11 RACING BALLS |
| 10 |
C2-21 BALLS DROPPED AND SHOT |
| 7 |
C2-22 MONKEY AND HUNTER |
| 2 |
C2-23 TRAJECTORY OF BALL - MODEL |
| 1 |
C2-24 WATER DROP PARABOLA |
| 5 |
C2-25 FUNNEL CART |
| 2 |
C2-26 FUNNEL CART WITH MASS OVER PULLEY |
| 4 |
C2-27 FUNNEL CART ON INCLINE |
| 1 |
C2-28 TRAJECTORY OF BALL DROPPED BY WALKER |
| 2 |
C2-41 VECTOR ADDITION OF VELOCITIES |
| 9 |
C2-51 KINEMATICS WITH ULI AND ULTRASONIC RANGER |
| 1 |
C3-02 INERTIA - TABLE CLOTH TRICK |
| 1 |
C3-12 PENCIL AND PLYWOOD |
| 3 |
C4-03 ACCELERATION BY ITERATED BLOWS |
| 1 |
C4-21 ATWOOD MACHINE |
| 3 |
C4-22 HORIZONTAL ATWOOD MACHINE |
| 2 |
C4-23 ATWOOD MACHINE WITH HEAVY PULLEY |
| 1 |
C4-33 FREE FALL IN VACUUM - FEATHER AND BALL |
| 1 |
C4-41 TERMINAL VELOCITY - BOTTLE IN TUBE |
| 1 |
C4-43 TERMINAL VELOCITY - STACKED COFFEE FILTERS |
| 1 |
C4-51 WEIGHTLESSNESS IN FREE FALL - MASS IN BEAKER |
| 2 |
C4-62 DROPPED SLINKY |
| 1 |
C5-01 NEWTON'S THIRD LAW - STATIC DYNAMOMETERS |
| 1 |
C5-11 AIR TRACK - ACTION-REACTION PAIRS |
| 2 |
C5-12 BALLISTIC CANNON CARTS |
| 1 |
C5-14 ROCKET TRIKE |
| 1 |
C5-18 FAN CART |
| 5 |
C5-19 ACTION AND REACTION - INSTRUCTOR AND CART |
| 5 |
C6-01 INCLINED PLANE - FRICTION BOX AND WEIGHTS |
| 4 |
C6-02 INCLINED PLANE - FRICTION BLOCK |
| 5 |
C6-03 INCLINED PLANE - FRICTION WITH 3 BLOCKS |
| 1 |
C6-04 FRICTION DIRECTION ON INCLINED PLANE |
| 3 |
C6-11 SLIDING FRICTION - LECTURE TABLE AND FELT |
| 2 |
C6-16 SLIDING AND STATIC FRICTION |
| 3 |
C6-17 FRICTION VS. PULLING ANGLE |
| 1 |
C6-21 SUSPENDED ROD ON WATER |
| 1 |
C7-01 AIR TRACK - ELASTIC COLLISIONS |
| 1 |
C7-02 AIR TRACK - INELASTIC COLLISIONS |
| 2 |
C7-03 AIR TRACK - SCATTERING WITHOUT CONTACT |
| 1 |
C7-11 COLLISIONS OF BALLS - EQUAL MASSES |
| 1 |
C7-12 COLLISIONS OF BALLS - ONE LIGHTER MASS |
| 1 |
C7-13 COLLISIONS OF BALLS - GRADUATED MASSES |
| 2 |
C7-15 COLLISIONS OF BALLS - 3 TO 1 MASS RATIO |
| 1 |
C7-16 HAPPY AND UNHAPPY BALLS |
| 7 |
C7-21 ENERGY AND MOMENTUM - COLLISION AND PROJECTILE |
| 3 |
C7-23 MEDICINE BALL AND SKATEBOARD |
| 3 |
C7-25 SUPERBALL, VACUUM MUD AND WOOD BLOCK COLLISIONS |
| 2 |
C7-41 DRY ICE PUCK COLLISIONS |
| 3 |
C7-51 BALLISTIC PENDULUM - PELLET GUN |
| 1 |
C7-52 BALLISTIC PENDULUM - LAB MODEL |
| 1 |
C8-02 GIANT PENDULUM FOR CLASSROOMS |
| 5 |
C8-03 GALILEO'S PENDULUM |
| 12 |
C8-04 HILL TRACK |
| 1 |
C8-05 CONSERVATION OF ENERGY IN VERTICAL PROJECTILE |
| 4 |
C8-11 INTERNAL VS. EXTERNAL ENERGY - SPRING-COUPLED SUPERBALLS |
| 5 |
C8-12 JUMPING MASSES WITH INTERNAL SPRING |
| 4 |
C8-14 JUMPING CLAMP |
| 2 |
C8-23 WORK DONE BY PUSHING ON WALL |
| 2 |
C8-34 POWER - INSTRUCTOR DRAGGING CONCRETE |
| 1 |
D1-02 PELLET VELOCITY FROM ROTATING DISCS |
| 1 |
D1-11 CYCLOID - LIGHT BULB ON WHEEL |
| 2 |
D1-31 TRAJECTORY FROM SPIRAL |
| 3 |
D1-32 TRAJECTORY FROM CIRCULAR ORBIT |
| 4 |
D1-33 ROTATING MASS ON STRING |
| 3 |
D1-34 ROTATING MASS ON SPRING |
| 1 |
D1-35 CENTRIPETAL FORCE - ROTATING MASS |
| 1 |
D1-36 AIR TABLE - CENTRIPETAL FORCE |
| 1 |
D1-38 MAGNETSLINGER |
| 1 |
D1-39 PENNY AND COAT HANGER |
| 1 |
D1-51 BANKED CURVE MODEL |
| 4 |
D1-52 FAIRGROUND ROTOR |
| 7 |
D1-53 LOOP-THE-LOOP |
| 2 |
D1-54 ROTATING MASSES IN SERIES |
| 4 |
D1-61 ROLLING VS. SLIDING |
| 2 |
D1-64 MAXWELL PENDULUM - SMALL |
| 3 |
D1-83 SPOOL |
| 2 |
D2-01 RING AND DISC ON INCLINED PLANE |
| 5 |
D2-02 MISCELLANEOUS BODIES ON INCLINED PLANE |
| 5 |
D2-11 HINGED STICK AND FALLING BALL |
| 2 |
D2-12 TOPPLING CHIMNEY |
| 3 |
D2-13 RACING PENDULA |
| 6 |
D2-31 OBERBECK CROSS |
| 1 |
D2-41 MOMENTS OF INERTIA ABOUT 3 PRINCIPAL AXES |
| 1 |
D2-43 MOMENT OF INERTIA - TORSIONAL CHAIR AND WEIGHTS |
| 4 |
D3-01 MASSES SLIDING ON ROTATING CROSSARM |
| 4 |
D3-03 ROTATING CHAIR AND WEIGHTS |
| 1 |
D3-04 ROTATING STOOL AND WEIGHTS |
| 6 |
D3-05 ROTATING CHAIR AND BICYCLE WHEEL |
| 1 |
D3-06 ROTATING CHAIR - HELICOPTER MODEL |
| 2 |
D3-31 AIR TABLE - TETHERBALL |
| 5 |
D3-32 KEYWHIP |
| 2 |
D4-02 BICYCLE WHEEL GYROSCOPE WITH COUNTERWEIGHT |
| 7 |
D4-03 BICYCLE WHEEL GYROSCOPE ON PIVOT |
| 3 |
D4-04 BICYCLE WHEEL GYROSCOPE ON ROPE |
| 2 |
D4-05 GYROSCOPE WITH GYMBAL RINGS |
| 2 |
D4-06 ELECTRIC GYROSCOPE |
| 3 |
D4-07 SUITCASE GYROSCOPE |
| 1 |
D5-21 BALL ROLLING ON ROTATING DISC |
| 2 |
E1-11 POTENTIAL WELL - MODEL |
| 2 |
F1-01 FLUID PRESSURE VS. DEPTH |
| 1 |
F1-02 FLUID PRESSURE VS. DEPTH - ANEROID GAUGE |
| 2 |
F1-04 EQUILIBRIUM TUBES |
| 2 |
F1-06 WATER SEEKS ITS OWN LEVEL |
| 2 |
F1-11 HYDRAULIC PRESS |
| 1 |
F1-14 PISTON DIAMETER VS. TRAVEL - WORKING MODEL |
| 1 |
F2-07 BUOYANCY - PEPSI AND DIET PEPSI |
| 2 |
F2-21 REACTION TO BUOYANT FORCE |
| 2 |
F4-14 WIND TUNNEL |
| 1 |
F4-61 HERO'S FOUNTAIN |
| 1 |
F4-63 MARRIOTTE'S BOTTLE |
| 1 |
F5-05 BERNOULLI'S PRINCIPLE - SMALL BALL AND FUNNEL |
| 3 |
F5-09 BERNOULLI'S PRINCIPLE - HAIRDRYER AND PING PONG BALL |
| 2 |
F5-21 VENTURI TUBE WITH MANOMETERS |
| 2 |
F5-22 VENTURI TUBE WITH PING PONG BALLS |
| 2 |
G1-01 EXAMPLES OF SIMPLE HARMONIC MOTION |
| 1 |
G1-14 PENDULA WITH DIFFERENT MASSES |
| 2 |
G1-15 PENDULA WITH 4 TO 1 LENGTH RATIO |
| 3 |
G1-17 PENDULUM WITH LARGE-ANGLE OSCILLATION - PORTABLE |
| 4 |
G1-35 MASS ON SPRING - EFFICIENT MODEL |
| 1 |
G1-60 CHAOS - TWO BIFILAR PENDULA |
| 1 |
G2-23 SPRING-COUPLED PHYSICAL PENDULA |
| 1 |
G3-21 TRANSVERSE WAVES ON A LONG SPRING |
| 1 |
I1-01 THERMOMETERS |
| 1 |
I1-13 THERMAL EXPANSION - BIMETAL STRIP |
| 1 |
I2-22 THERMODYNAMICS BY TOUCH |
| 1 |
I3-11 WATER BAROMETER - BOTTLE COLLAPSE |
| 2 |
I3-33 HELIUM BALLOON ON LIQUID NITROGEN |
| 1 |
I3-52 CONSTANT VOLUME GAS THERMOMETER - ABSOLUTE |
| 1 |
I5-02 TRANSFORMATION OF MECHANICAL ENERGY INTO HEAT |
| 4 |
I6-01 GAS PRESSURE - MODEL |
| 2 |
I6-11 BROWNIAN MOTION WITH TV |
| 1 |
I6-13 AIR TABLE - MODEL OF BROWNIAN MOTION |
| 2 |
I6-31 MOLECULAR MOTION DEMO - BROWNIAN MOTION |
| 1 |
I6-32 MOLECULAR MOTION DEMO - RANDOM MOTION IN GASES |
| 2 |
I6-33 MOLECULAR MOTION DEMO - GAS PRESSURE |
| 3 |
I6-34 MOLECULAR MOTION DEMO - TEMPERATURE OF A GAS |
| 1 |
I6-36 MOLECULAR MOTION DEMO - AVOGADRO'S HYPOTHESIS |
| 1 |
I6-38 MOLECULAR MOTION DEMO - BOYLE'S LAW |
| 1 |
J4-01 PARALLEL PLATE CAPACITOR |
| 1 |
J4-22 PARALLEL PLATE CAPACITOR WITH DIELECTRIC |
| 1 |
J5-02 MAGNETIC FIELD - EME SET - BAR MAGNET |
| 1 |
J5-04 MAGNETS |
| 1 |
J5-32 MAGNETIC LEVITATION - PERMANENT MAGNET AND |
| 1 |
J5-35 MAGNETS INTERACTING ON PIVOTS |
| 1 |
J5-36 MAGNETIC SPINNER |
| 1 |
J6-33 ELECTROMAGNETIC GUN |
| 1 |
J7-23 MAGNETIC DOMAINS - MODEL |
| 1 |
J7-24 BARKHAUSEN EFFECT |
| 1 |
K1-01 FORCE BETWEEN CURRENT-CARRYING WIRES |
| 1 |
K1-05 FORCE BETWEEN CURRENT-CARRYING COILS |
| 1 |
K1-12 CATHODE-RAY TUBE - DEFLECTION BY MAGNET |
| 2 |
P1-02 LOCAL INERTIAL FRAME OF REFERENCE |
| 3 |
P1-12 SPACETIME DIAGRAM IN 3D - EARTH ORBITING SUN |
| 2 |
P1-21 EINSTEIN'S RELATIVITY EXPERIMENT |