Post on 22-Feb-2016
description
PINEWOOD DERBY RACE
Some Hints and Some Physics
Conservation of Energy2 21 1
2 2 thermalmg h mv I E
Gravitational potential energy lost - GOOD
Translational kinetic energy gained - GOOD
Rotational kinetic energy gained - BAD
Thermal energy gained - very BAD
hv
Conservation of Energy
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m – massg – acceleration of gravity (9.8m/s2) h – change in height of center of gravity v – speed at bottomI – moment of inertia – angular velocityEthermal – change in thermal energy
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Parameters and their Effects1. Air resistance2. Friction3. Weight4. Center of Mass5. Stability6. Rotation of Wheels
1. Air resistance - DragDrag can be modeled as:
cd drag coefficient (depends on shape etc.) r density of fluid (i.e. air) A cross-sectional area v speed http://en.wikipedia.org/wiki/Drag_coefficient
212 dD c Avr
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1. Air resistance – Drag
The cross-sectional area A matters But so does flow of air around the obstacle (cd).
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1. Air Resistance - Ideas
212 dD c Avr
How can you reduce drag?
Reduce drag coefficient cd:• streamline profile• smooth surface (sand or paint)
You cannot control density of air
Reduce cross-sectional area A
You don’t want to reduce v
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2. Friction
Kinetic Friction between wheel and axle
Sand wheel surfaceNotes: probably not a great advantage. Might
be counterproductive if done poorly.
Rub your hands and they get warm. If your car has significant friction then some of its initial potential energy is NOT used for SPEED but instead for HEATING purposes.
Rolling Friction
Should your wheels be square? Sand axles
Might not be that important.
Lubricate axlesNot with a liquid! We have what you need. Race Day.
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3. Weight Objects fall at the same rate (in
vacuum), i.e. weight does not matter, unless …
Movie: coin and feather
… there is air resistance (or some other opposing force that is independent of mass).
3. WeightDemo: paper and book
Observation: Same A, same cd. Book has greater mass and falls
faster.Conclusion: The relative effect of drag is smaller when the weight is
greater.
Idea: Maximize weight (max is 5 ounces)
212 dD c Avr
mg Dam
4. Center of GravityThe center of gravity of an object depends
on how the mass is distributed in the object.
Demo: meter sticks with taped-on mass
Objects can have the same mass but different centers of gravity.
4. Center of GravityThe two cars have the same mass but
different centers of gravityNote that the car on the left must be made of
denser material to have the same mass (Idea: metal filling).
4. Center of Gravityh is the change in height of the center of gravity.We cannot move the car higher up the incline BUTwe can move the center of gravity higher up.
v0=0
hv
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4. Center of Gravity
•The center of mass of car A travels a greater vertical distance h.•Therefore, car A loses more gravitational potential energy.•Therefore, it gains more kinetic energy and is faster at the bottom.
h
A B
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5. Stability
Demo: cars on table test
Make sure your car rolls straight.Don’t put your center of gravity behind the
rear axle.Add extra mass preferably to underside of
car.
This is VERY important but hard to model (Experiment)
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6. Rotating ObjectsDemo: incline and rolling objects.
Observation:Same gravitational potential energy, same kinetic energy, but hoop is
slower. Why?Explanation:Hoop has greater moment of inertia I. more rotational kinetic energy, or ½I2 less translational kinetic energy, or ½mv2 (i.e. less speed)
Idea: work on wheel geometry to reduce I.
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Summary 1
Streamline ProfileSand/paint surfacesReduce area facing wind
Sand wheel surfaceSand axlesLubricate axles
reduce air resistance, Ethermal
reduce friction, Ethermal
Summary 2Maximize weight (5 ounces)
Put center of gravity to the rear of the car
Make sure car rolls straightCenter of gravity not behind rear axleAdd extra mass to underside
Reduce moment of inertia I
reduce effect of air resistance
increase potential energy, mgh
reduce friction, Ethermal
reduce rotational kinetic energy ½I2
HAVE FUN