Mechanics
M-K1 : Propeller Cart
Unit
Conservation of Momentum
Purpose
Illustrate the concepts of velocity and acceleration for straight-line motion (with constant acceleration).
Equipment
- Electric motor-driven cart with a propeller (CENCO)
- Detachable screen
- Two AAA batteries
Suggestions
Screen out
- With motor "off" illustrate friction: vo > 0, a > 0; vo < 0, a > 0
- With motor "on" illustrate: vo > 0, a < 0; vo < 0, a < 0
- Can it be: vo = 0, a > 0
- Can it be: vo > 0, a = 0
- What will happen if the screen is attached?
Discussion
- V > 0
- V = 0
M-K2 : Mariott Tube (comp. M-F7)
Unit
Bernoulli's Principle (Kinematics in 2-dim)
Purpose
Interesting evidence of the Bernoulli's Principle
Equipment
- Mariott Tube: A cylinder with three holes (stoppers)
- Base pan & stand for the tube
- Pitcher for water
Suggestions
Holes are numbered 1-3 from bottom to top.
- With 1 and 2 open, ask for prediction and run
- With all open, ask for prediction and run
- Explain
Discussion
- Equipment and set up
- Filling the tube to the brim
- Stoppers removed, liquid level continuously maintained
- Close-up of the streams: top and bottom arrive at the same point, middle stream goes farther
M-K3a : Falling Monkey (I)
Unit
Kinematics in 2 dim
Purpose
Illustrate the seperation of vertical and horizontal motion for projectiles
Equipment
- Air gun with magnetic release
- Electromagnet suspended on a stand
- Can - the target ("monkey")
- Several bullets (metal balls)
- One 9V battery and wires
Discussion
- Equipment and set-up
- Ejection
- Collision
M-K3b : Falling Monkey (Uchida)
Unit
Projectile Motion
Purpose
To demonstrate the independence of x-and y-motion
Equipment
- Gun assembly with a 9V round battery
- C-Clamp to attach the gun to a table
- The red target with a security string
- Stand for target assembly
- Electro-magnet to suspend target
- Small white ball
- Telescopic sight
Suggestions
- Aim the gun at the target using the telescopic sight
- Remove the telescope and cock the gun using the transparent plastic block.
- Suspend the target (tuck away the string)
- Remove the block while holding the launcher
- Adjust the launcher to the desired stretch and release.
Discussion
In a large classroom demo, Falling Monkey I is a more effective demo. In particular, the collision is apparent even for people sitting far away due to the sound of impact.
In order with pictures from left to right.
- Equipment
- Cocking the gun
- With the block in place, the ball is placed in the gun
- Set-up complete with the target suspended by the electro-magnet
- Just before collision
- Collision
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M-K4 : Inertia
M-K5 : Ball and String (I)
Unit
Kinematics in 2 dim, circular motion
Purpose
- Illustrate various kinds of circular motion
- Consider instantaneous velocity and acceleration in each case
Equipment
A ball with a long string attached
Suggestions
Demonstrate circular motion
- Whirling in horizontal (Note that the string itself cannot be horizontal!)
- Whirling in vertical (Note that the speed cannot be constant!)
- Pendulum motion
- Discuss whether the speed and the magnitude of acceleration change or remain constant in each case 1-3
- Discuss the change in direction of velocity and acceleration in each case 1-3
Discussion
Requires a full discussion of circular motion, including tangential and perpendicular (radial, centripetal) acceleration
M-K6 : Ballistic Car (I)
Unit
Projectile motion
Purpose
Illustrate that the vertical and horizontal motions of a projectile are independent of each other
Equipment
- Free-rolling ballistic car (CENCO)
- Shooting ball, pin with string
Suggestions
There are two openings for the pin and two holes in the piston. Try all four combinations. Best effect is obtained with the maximum piston force, and as small.
M-K7 : Ballistic Car (Pasco)
UNIT
Projectile Motion
Purpose
Illustrate:
- Independence of the vertical and horizontal motions
- Vector nature of acceleration
- Accelertation in inclined-plane motion
- "Bombing run" strategy
Equipment
- Ballistic car accessory (Pasco,Ìý(requires 9V battery)) ÌýÌýÌý ÌýÌýÌý ÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý ÌýÌýÌý Ìý
- Drop rod accessory (Pasco)
- Pasco 1m track
- A stand to raise one side of the track
- Pulley with clamp, string, and weight
M-K8 : Ballistic Pendulum
M-K9 : Projectile Launcher
Unit
Projectile Motion
Purpose
To explore the effect of angle and initial speed on the range of a projectile
Equipment
- Projectile launcher
- Projectiles
- Meter Stick
Suggestions
- Balls can be launched at any angle from 0-90 degrees, use the plumb bob on the side to set the angle.
- There are three different ranges which are 2.5 meters, 5 meters, and 9 meters.
- There are sights for aiming the projectile launcher that can be viewed from the back.
- Photogates can be attached to measure muzzle speed.
- For stability, launcher should be clamped to a table
M-K10 : Gravitational Torsion Balance
UNIT
Gravitation
Purpose
To show the gravitational force between a large and a small object
Equipment
- Support base with leveling Feet
- 1.5 kg lead balls (2)
- Gravitational Torsion Balance
- plastic plate
- replacement torsion ribbon
- Laser light source (PASCO OS-9171 He-Ne Laser)
- Meter stick
Suggestions
Experiment is not suitable for classroom demonstration, however equipment is of interest for historical reasons.
