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newtonian mechanics

Units and Kinematics
- Mass Measurement Sets of calibrated metric and imperial masses. (s/m) (T) *
- Length Measurement Standard meter sticks and selection of cubic volumes. (m) (T) *
- Time Measurement Time signals from U.S. Naval Observatory. (m) (T) *
- Galileo's Chandelier Bowling ball pendulum with burning candles stuck in holes, used as prop only. (l) (T+) *
- Density Aluminum/Uranium and SF₆/Air/Helium comparisons. (m) (T) *
- High Road, Low Road Which road is faster? A kinematics concept Puzzler. (l) (T+)
- Scantling and Ball Ball rolling down tilted trough in oscillatory fashion yields acceleration (also known as Galileo's Inclined Plane) (m) (T) ***
- Uniform Acceleration Glider acceleration by an inclined air track or by a falling weight/string attachment; large ballbearing rolling on PASCO track (with strings). (l) (T+)
Vectors and Forces in Equilibrium (Statics)
- Vector Arrows Wooden arrow vectors, hand held or mountable. (m) (T) *
- Train on Circular Track Vector representation of position, velocity, and acceleration. (m) (T) *
- Tension Puzzler Two weights tugging on a spring balance; to what result?
- Vector Sum of Forces Magnetic blackboard mechanics with spring balances and weights. (m) (T) **
- Center of Mass Several irregular laminae with plumb bob. (m) (T+)
- Stack of Blocks A dozen blocks are stacked on top of each other over the edge of the table seemingly defying gravity. (m) (T) ***
- Loaded Beam Beam supported at ends with platform scales and toy truck as load to demonstrate moment arms. (m) (T+) **
- Three-Legged Table Triangular table supported by platform scales. (l) (T) *
- Leaning Ladder Small ladder against wall with variable load and inclination. (m) (T) **
- Friction Blocks Selection of blocks that slide down a variable-angle inclined plane to demonstrate the various aspects of friction. (m) (T) *
- Fakir Physics The concept of pressure is demonstrated by lying on a bed of nails. (m) (T) ***
Simple Machines
- Levers Lever types using bars and objects or blackboard mechanics set. (m) (T)
- Jaw Models Cardboard animal jaws as examples of levers. (m) (T) *
- Screw Jack An example of a cylindrical wedge to show mechanical advantage. (m) (T)
- Winch An application of a lever arm to show mechanical advantage. (m) (T)
- Hydraulic Press Application of Pascal's Principle to bend metal or break 2x4's. (m) (T)
- Pulley Board Upright board or Blackboard Mechanics with pulley combinations. (m) (T)
- Bosun's Chair Block and tackle, or a simple pulley, attached to hall ceiling for lecturer to hoist self. (l) (T++)
Newton's First Law
- Inertia of Rest Concrete block smashed on lecturer's chest with sledge hammer. (m) (T)
- Dinner Table Sliding tablecloth out from under posh dinner setting. (m) (T+) ***
- Diving Egg Trick Egg plunges into glass upon lateral removal of pie tin by broom. (m) (T+)
- Penny Catch A row of 10 or 20 pennies are laid on your forearm - swing your arm forward and catch all the pennies in midair! (m) (T)
- Uniform Motion Large ballbearing rolling on long PASCO track. (l) (T+)
- Friction Blocks Demonstrate that kinetic friction does not depend on surface area but does depend on the normal force. (m) (T+)
- Locked Brakes The difference between static and kinetic friction can cause the car to skid when braking. (m) (T+)
- Air Table Center-of-Mass Motion Coupled masses on air table. (l) (T+)
- Air Track Center-of-Mass Motion Push-me/pull-me gliders or pendulum glider on air track. (l) (T+)
- Irregular Lamina Motion Irregular lamina with marked center-of-mass tossed in air. (m) (T)
- Magic Marker Center-of-Mass Motion Markers attached to an irregular lamina record the motion of various points, including the COM. (m) (T+)
Newton's Second Law and Gravity
- Scantling and Ball Ball rolling down tilted trough in oscillatory fashion yields acceleration (also known as Galileo's Inclined Plane). (m) (T) ***
- Uniform Acceleration Glider acceleration by an inclined air track or by a falling weight/string attachment; large ballbearing rolling on PASCO track (with strings). (l) (T+)
- Atwood's Machine Combinations of weights suspended over pulley to show that asymmetry causes acceleration. (m) (T+)
- Double Atwood Machine Prediction of motion of mass in a more complex wheel, axle, and pulley assembly. (m) (T+)
- Brachistochrone Straight and cycloidal inclined paths, with the ball on the cycloidal path always beating the straight to the bottom. (m) (T)
- Ball and Strobe A ball is dropped 5 meters and photographed under stroboscopic illumination. (l) (T++)
- Newton's Apple Apple electronically released from platform; fall time given by special circuit and digital display. (l) (T++) ****
- Resistance to Free Fall Ping-pong balls are dropped in air and CO₂ for comparison. (m) (T+)
- Nutty Free Fall Large nuts linked by threads at different distances (d, 4d, 9d, 16d, 25d, etc.) dropped from platform; sound of landing gives equal time intervals. (l) (T+)
- Falling Faster than 'g' Relation between angular acceleration and linear acceleration to give free-fall paradox. (m) (T)
- Feather and Dime Falling in an evacuated tube at the same rate. (l) (T+)**
- Drop-n-Catch Ball drops from mast of PASCO cart; its motion can be considered relative to the moving cart or the track frame of reference. (l) (T+)
- Shoot-n-Drop Ball shot horizontally, one dropped vertically; both hit the ground at the same time. (s) (T+) **
- Shoot-n-Catch Ball shot up from PASCO cart is caught by same; a puzzler to ponder if track is tilted and cart accelerates down (or decelerates up). (l) (T++)
- Shoot the Monkey Monkey released from platform is shot by simultaneously fired cannon. (l) (T++) ****
- Reversible (Kater's) Pendulum A physical pendulum with two adjustable knife edges for an accurate determination of "g". (m) (T) **
- Cavendish Experiment Calculation of gravitational constant, with accompanying apparatus model. (l) (T++) ****
- Potential Well Orbital motion simulated by ball rolling on wooden potential well. (m) (T) *
Newton's Third Law
- Reaction Carts/Gliders Twin back-to-back spring loaded carts on track or gliders on airtrack. (l) (T+)
- Reactionary Roadbed Radio controlled car moves on way while road moves the other. (l) (T+) **
- Sailboat Reaction Cart A motorized fan mounted on a reaction cart blows air into a "sail" which is also mounted on the cart. Which way will the cart move? (m) (T)
- Train on Circular Track Train moves one way, track moves the other. (l) (T+)
- Air/Water Rocket The choice of propellant for this toy rocket makes a huge difference in thrust. (m) (T)
- Rocket Car Single seat CO₂ powered rocket cars. (l) (T+)
- Cannon Recoil Gunpowder cannon mounted on rails. (l) (T++)
- Hero's Engine A Cylindrical boiler with tangential steam jets spins on its axis. (m) (T+)
- Inverse Sprinkler Which direction does a lawn sprinkler spin if water enters the nozzle, rather than being expelled from the nozzle? (m) (T)
- Repulsive Symmetry A pair of horseshoe magnets symmetrically repel each other as observed on OHP. (s) (T)
Impulse, Work, and Energy
- Egg Throw Students are invited to throw a raw egg as hard as they please. The egg does not break when caught in a sheet. (l) (T+)
- Karate Blow The instructor breaks several boards with a swift blow of the hand. (m) (T+) ****
- Pencil Blow Gun A blow gun shoots a pencil through a board. (l) (T++)
- Toilet Paper Toilet paper is torn off a roll by a quick yank but not by a slow pull. (m) (T) *
- Marginal String A weight is suspended by a marginally strong string. Pulling on the weight with a similar string breaks the former, depending on the impulse. (m) (T)
- Pile Driver A falling weight drives a nail through a board. (m) (T)
- Gravi Car A falling weight propels a car forward. (l) (T+) **
- Wind-Up Truck A wound-up spring propels a toy truck. (m) (T)
Conservation of Linear Momentum and Energy
- Happy and Unhappy Balls An amusing example of elastic and inelastic collisions. Also a momentum change / impulse puzzler. (m) (T)
- Elastic and Inelastic Collision Model Two carts collide with a wall.
- Elastic and Inelastic Collisions Gliders on airtrack; pucks on air table. (l) (T+)
- Reactionary Roadbed Radio controlled car moves one way while road moves the other. (l) (T+) **
- Newton's Cradle Conservation of momentum in elastic collisions between suspended spheres. (s) (T) **
- Bouncing Collision A tennis ball/basketball combination is dropped to the floor ... the tennis ball theoretically bounces to nine times the original drop height. (m) (T)
- Special Bouncing Collisions Same as previous except that mass ratio of balls is 1:3 (softball:basketball) leaving basketball dead and softball four times the height. (m) (T)
- Two Dimensional Collisions Elastic collisions between steel balls. (m) (T+)
- Pool Table Requiring little or no skill and the aid of a carpenter's square, one shot sinks two balls into the pockets. (l) (T+) ***
- Killer Shuffleboard Elastic collisions between large iron pucks. (l) (T)
- Pendulum and Nose Faith in the conservation of energy is tested by taking the demonstrator's nose to task. (l) (T+) ***
- Egg Psych-Out More physics in your face with a heavy mass and spring over a carton of eggs (or your face). (l) (T++)
- Crashing Pendulum A pendulum is allowed to "crash" into a bar, dramatically altering its motion, but energy is conserved as is evidenced by the return swing. (m/l) (T/T+)
- Loop-the-Loop A toy car rolling down a loop-the-loop track demonstrates the minimum height it must start at to successfully negotiate the loop. (m) (T+) ***
- Mass and Spring Potential and kinetic energy tradeoffs exhibited by a bouncing mass on the end of a spring. (m) (T)
- Bottle Game Try to knock the bottle over on the return swing! (m) (T)
- Bow and Arrow Shoot Use conservation of energy to predict the height the arrow will reach. (l) (T++)
Angular Momentum
- Three Dumbbells Lecturer rotates on turntable whilst holding two dumbbells. (l) (T) ***
- Orbiter Ball on string orbits with increasing speed as string is shortened. (m) (T) **
- Coffee Mug on a String Drop your favorite mug and have it saved in the nick of time by an orbiting pen. (m) (T)
- Flyball Governor Rotating balls change speed as radius of rotation is changed. (m) (T)
- Train on Circular Track Train moves one way, track moves the other. (l) (T+)
- Tail Wags Dog Lecturer tries to swing baseball bat while standing on turntable. (m) (T)
- Child's Top A stage prop to be used in discussion of angular momentum. (m) (T)
- Maxwell's Top A top whose pivot coincides with its center of gravity so that there are no gravitational torques. (s) (T)
- Gyroscope Small gyroscope used primarily as a stage prop in discussion. (s) (T)
- Counter-balanced Gyro Gyro (mounted in gimbal) with movable weight to balance the top or to apply torque to cause precession. (m) (T)
- Bicycle Wheel Gyro Same as counter-balanced gyro but physically large. (l) (T)
- Angular Momentum Bicycle Wheel Hand-held version to be used with turntable for addition/subtraction of angular momentum; can also be suspended by handle from a rope for precession. (m/l) (T)
- Ship Stabilizer Gyro Side to side rocking of a model boat is damped by a gyro. (m) (T)
- Suitcase Gyro A motor driven gyro hidden in a suitcase gives surprising results when the suitcase is moved. (m) (T)
- Dueling Gyros Two motor driven gyros turn in the opposite or same direction to add or cancel angular momenta. (m) *T)
- Air Gyro Air supported ball shows all the salient features of gyroscopic motion. (m) (T+)
Rotational Dynamics (moment of inertia and the action of torques)
- Angular Impulse Wheel is made to rotate by falling weight attached by string. (m) (T)
- Tippy-Top A top that flips upside down raising its center of gravity and reverses spin. (s/m) (T)
- Rattleback This object, when given a spin, seems to defy the laws of angular momentum as it stops spinning, rocks in place, and proceeds to spin in the opposite direction. (s) (T+)
- Rotational Stability A chain or rope (lariat), when rotated fast enough, assumes an axis about which its moment of inertia is maximum. (m) (T)
- Spinning Football/Coconut Preferred axis of rotation for stability. (m) (T)
- Tennis Racquet Flip Demonstration of stable and unstable axes of rotation. (m) (T)
- Torsion Pendulum Determination of the moment of inertia by period measurements. (m) (T+)
- Yo-yo A very large cable spool (or smaller version) is made to roll in either direction or slide, depending on the angle of pull; action of a torque. (l) (T) **
- Which Way Will the Bike Move? A puzzler concerning torques - pull on a rope attached to the pedal and figure out the consequences. (m) (T)
- Inclined Plane Various disks are raced down an inclined plane to verify the effect of their moments of inertia. (l) (T+)
- Rotating Rod A rod with adjustable weights (moment of inertia) is made to rotate by a falling weight attached to the axle via string (m) (T)
- Center of Percussion The motion (or lack of motion) of the suspension point of an object is observed when the object is struck a blow. (m) (T+) **
- Breaking Broomstick on Wineglasses Two wineglasses support a broomstick which is given a swift blow with a pipe. The broomstick, but not the glasses, breaks. (m) (T+)
- Falling Faster than 'g' Relation between angular acceleration and linear acceleration to give free-fall paradox. (m) (T)
Rotational Dynamics (centripetal forces and rotating reference frames)
- Tennis Ball on a String Whirl it around and then let go. (m) (T)
- Loop-the-Loop A toy car rolling down a loop-the-loop track demonstrates the minimum height it must start at to successfully negotiate the loop (m) (T+) ***
- Barrel of Fun Turntable model of amusement park ride to investigate angular velocities necessary to keep objects pinned to wall. (l) (T+) **
- Bucket of Water A bucket, partially filled with water, is swung in a vertical circle at arms length without spilling a drop. (m) (T) **
- Olive-Wineglass Puzzler The trick is to pick up an olive with an inverted wineglass and transfer it to another. (s/m) (T+)
- Motor Driven Turntable A row of weights, aligned on the radius of the turntable, come flying off as rate of rotation is increased. (l) (T+)
- Centripetal Force Puzzler Tethered, floating balls move radially inward on rotating turntable, contrary to intuition; also done with candle flame. (s/m) (T)
- Coriolis Force Students try to throw a volley ball to each other or into a basket while sitting on a rotating platform; lots of fun (xl) (T+) ***
- Foucault Pendulum Is the pendulum rotating? Presently available only in hall D. (l) (T+++) **
Pressure
- Mercury Barometer Column of mercury in glass tube, supported by atmosphere. (m) (T++)
- Pascal Vases Pressure at the bottom of a vessel is proportional to the depth of the liquid and independent of the volume and shape of vessel. (s) (T+) **
- Pascal's Paradox Vessels with identical bases are filled to the same level and placed on a platform scale; scale measures force = area (same) x pressure (same). (m) (T) **
- Pressure and Depth Cylinder with water spouts at different depths. (m) (T+)
- Magdeburg Hemispheres When evacuated, held together by atmospheric pressure; takes football team to separate them. (m) (T+) ***
- 55 Gallon Drum Drum evacuated by vacuum pump; crushed by atmospheric pressure. (l) (T+) ***
- Coke Can A coke can with hot water vapor inside implodes dramatically upon touching cold water. (m) (T)
- Golf Ball Atmosphere Demonstration of molecular motion and pressure using golf balls. (l) (T) ***
- Blow-Up Balloon in Vacuum A sealed balloon in a bell-jar "blows up" as the jar is evacuated. (m) (T+)
- Vacuum Cannon Air rushing into an evacuated tube pushes a ball down the tub with such a force and speed that it "blasts out" the other end. (m) (T)
- Water Bottle and Lead Bricks Adding a small volume of water to a hydrostatic head connected to a water bottle raises lead bricks. (l) (T+)
- Siphon Transfer of water from one tank to another via rubber hose. (m) (T+) **
- Holy Siphon A siphon with holes in it reveals the pressure within. (m) (T+)
Fluid Statics
- Incompressibility of Water Water filled glass flask to hammer in nails. (m) (T) ***
- Water Bomb Metal sphere full of water; when sphere is placed on dry ice, water freezes and expands, with explosive results. (m) (T+)
- Air Spring A piston in a cylinder is hit with a mallet and behaves as if the cylinder were full of springs. (s/m) (T)
- Archimedes' Principle Spring scale indicates weight of mass in and out of water to demonstrate buoyant forces. (m) (T) *
- Hydrometer Relative density measurement of liquids in beakers. (s) (T+)
- Cartesian Diver Buoyancy of diver is changed by amount of water displaced. (s) (T+)
- Cannon Ball Boat Puzzler Does the level of the ocean rise or fall when a cannon ball is thrown overboard from a boat? (m) (T) **
- Two-Fluid Buoyancy A polyethelene cylinder floats in water and sinks in vegetable oil. What happens when oil is poured on top of the floating cylinder? (s) (T+)
- Coke Can Buoyancy Regular Coke sinks in water while Diet Coke floats. (s) (T)
- Buoyant Force on Finger A finger dipped into a glass of water experiences a buoyant force - made evident by observing the reaction force when the glass is on a pan balance. (s) (T)
- Buoyant Force Measurement Plastic Coke bottles filled with water, air, and sand are submerged in water. A spring scale is used to determine the buoyant force. (s) (T)
- Buoyant Soap Bubbles Soap Bubbles float in an aquarium filled with SF₆. (s) (T+)
- Elevator Buoyancy Do ice cubes, floating in a glass of water, float differently in an upward or downward accelerating elevator? (m) (T++)
- Bean Buoyancy Watch steel and table tennis balls sink and float in this "dried bean fluid". (s/m) (T) **
- Capillary Action Array of capillary tubes of different bore diameters. (s) (T+) **
- Giant Bubbles Large rings and powerful bubble mixture for a humid day. (m) (T)
- Soap Film and String A loop of string floating on a soap film is pulled into a perfect circle by surface tension. (s) (T+)
- Double Bubble Double your pleasure with this puzzler: small bubble blows up large one. (s) (T+)
- Holy Boat An open mesh plastic fruit container easily floats on top of water. (m) (T)
- Minimal Surfaces Soap films on wire frames. (s) (T+)
- Water Drops Smaller drops are more spherical. Water drops on Teflon are more spherical, but try adding some soap! (s) (T++)
- Molecular Size Molecular size is determined by means of a Langmuir trough. (m) (T++)
Fluid Dynamics
- Laminar/Turbulent Flow Depending on conditions, either type of flow can be observed in a glass tube through which water is flowing. (m) (T++)
- Reversible Fluid Mixing Reversible mixing is accomplished to everyone's amazement. (m) (T+) ****
- Poiseuille's Law 16-tube water tank to show relation between tube cross-section and flow rate. (l) (T+) **
- Poiseuille Double Fountain A hose with a smaller opening squirts water higher than an open hose, because of viscosity. (m) (T++)
- Viscous Fluid Viscosity, Stoke's law, Reynold's number, and terminal velocity is demonstrated at 100 Pascal Sec. (100,000 centipoise). Cooled glycerine can be used to show the temperature dependence. (s) (T+)
- Parachutes Drag effect of cross-sectional area is demonstrated by two falling disks of paper. (m) (T)
- Convection Convection in a fluid, by non-uniform heating, is shown. (m) (T+) *
- Diffusion of Bromine Gas Gas jar containing bromine linked to second containing air. (m) (T++)
- Diffusion of Colored Water Food coloring placed at bottom of water filled jar. (m) (T+)
- Resistance to Free Fall Ping Pong balls are dropped in air and SF₆ for comparison
- V² Drag Accurate determination and analysis of g for falling bodies shows v² dependency of drag force. (l) (T++)
- Vortex Large smoke rings are catapulted across lecture hall to blow out candle. (m) (T+)
- Vortex Tube This clever tube separates hot and cold air out of a jet of room temperature air and serves as a refrigerator. (m) (T++)
- Turning Off g A cup filled with water has a hole in the bottom. What kind of trajectory does the leaking water experience when the cup is dropped from up high? (l) (T+)
- Big Squirt / Little Squirt A double fountain puzzler: which fountain squirts higher -- the one with the big opening or the one with the small opening? (m) (T++)
- Bernoulli's Principle Spinning ball in air stream moves perpendicular to flow in a way dependant on spin direction. (l) (T+) ***
- Bernoulli Wind Tunnel Tunnel with different cross sections shows that pressure is dependant on air velocity. (l) (T+) *
- Bernoulli Beach Ball Ball suspended by angled air stream. (m) (T) ***
- Curve Ball Ping-pong thrower, Styrofoam ball and tennis racquet, or Track Ball set to produce curve balls, floaters, and sinkers. (m) (T)
Strength of Materials
- Shear Rubber sheet model. (m) (T+)
- Torsion Rubber tube and wooden slat models are twisted. (s/m) (T)
- Spiral Fracture Realistic leg-in-ski-boot accident. (m) (T) ***
- Buckling Wooden slat is compression loaded to buckling point. (m) (T)
- Foam Rubber Beams The structural strength of these I-beams is easily made evident with small loads. (s) (T+)
- Hooke's Law and Young's Modulus Both can be determined by stretching a long wire with weights. (l) (T+)
- Collapsible Cow Scaling of wooden cow, simply and Nature's way. (l) (T+) ***
- Creep of Lead Lead rod subjected to tensile load. (m) (T+) *
- Fracture Strength of Chalk Chalk rod subjected to tensile and compressive loads. (m) (T+) *

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