1 Dudin Maxim Lyceum 130 Problem 5 Car. 2 Problem Build a model car powered by an engine using an...
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Transcript of 1 Dudin Maxim Lyceum 130 Problem 5 Car. 2 Problem Build a model car powered by an engine using an...
![Page 1: 1 Dudin Maxim Lyceum 130 Problem 5 Car. 2 Problem Build a model car powered by an engine using an elastic air-filled toy-balloon as the energy source.](https://reader035.fdocuments.us/reader035/viewer/2022081419/5519deca550346443e8b4f0a/html5/thumbnails/1.jpg)
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Dudin Maxim Lyceum 130
Problem 5 “Car”
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Problem
Build a model car powered by an engine using an elastic air-filled toy-balloon as the energy source. Determine how the distance travelled by the car depends on relevant parameters and maximize the efficiency of the car.
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Investigation plan
Investigate properties of toy-balloon drive Analyze movement of balloon-car Build the car Investigate the influence of relevant
parameters on movement of car and maximize travel path
Rate the energy efficiency
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Pressure inside the balloon
∆h
Balloon usage Pressure, Pа
1 3700
6 3500
9 3400
24 3300
BalloonAir pump
Manometer
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Movement of the car
Nozzle
Balloon
�⃗� 𝑑
�⃗� 𝑓
Rolling friction force
Drag force Air
�⃗�
�⃗� 𝑟
Reactive force
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Efficiency
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Car building To build the car, which will have the longest travel path we
should: Reduce the friction
Reduce the drag
Use optimal nozzle Use optimal balloon
Build a car with little mass and big wheel radius
Build a car with little contact area between car and air
This parameters will be investigated after first car
building
𝐹=Nf𝑏𝑅
• Nf is the normal force
𝐹=12𝜌𝑢2𝐶𝑑 𝐴
• is the rolling resistance coefficient
• is the radius of wheel
• is the density of the fluid
• is the velocity• is the drag coefficient
• is the reference area
![Page 8: 1 Dudin Maxim Lyceum 130 Problem 5 Car. 2 Problem Build a model car powered by an engine using an elastic air-filled toy-balloon as the energy source.](https://reader035.fdocuments.us/reader035/viewer/2022081419/5519deca550346443e8b4f0a/html5/thumbnails/8.jpg)
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Car building
Mass of the car is 76 gram
Reference area (without balloon) is about 20 cm2
Radius of the wheel is 1.5 cm
Smaller radius of the wheel will cause slippage
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Experiment We used: Equal value of balloon – 1,4 liter Finger to start the car Video and movement sensor 5 different nozzles
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Investigation of influence of nozzle diameter
5 6 7 8 9 10 11 12 13 14 150
100
200
300
400
500
600
700
800
Dependence of travel path on nozzle diameter
5 6 7 8 9 10 11 12 13 14 150123
Dependence of time of bal-loon working on nozzle di-
ameter
5 6 7 8 9 10 11 12 13 14 150123
Dependence of maximum speed on nozzle diameter
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Explanation of nozzle efficiency
little middle velocity little drag work big friction between
walls of nozzle and moving air
little friction between walls of nozzle and moving air
big drag work not absolutely horizontal
direction of air movement
Optimal nozzle is nozzle with 10 mm diameter
Small nozzle Big nozzle
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Energy efficiency rate Energy efficiency is a ratio between sum of
friction, drag and loses inside the nozzle to full balloon energy
We should rate friction, air resistance and full energy of air inside the balloon
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Experiment to rate the friction
• is the velocity of car in the moment of full decent
Friction force is 0,004 N
h 𝑙
Car without balloon
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Experiment to rate the drag
h 𝑙
Car with half reference area (in comparison
with pervious experiment)
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Drag and friction rate Then we can work with results of previous experiment with car drive:
Blue letters were found Green letters is results and
constants of experiments
We may find green letters from
experiment with nozzles
Drag work for car with 10 mm nozzle is 0,113 J
𝑊 𝑓=𝐹𝑙Friction work for car with 10 mm nozzle is 0,028 J
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Efficiency
η=𝑊𝑜𝑢𝑡
𝑊 𝑖𝑛
𝑊 𝑜𝑢𝑡=𝑊𝑑+𝑊 𝑓=0,141 𝐽𝑊 𝑖𝑛=𝑃 ∆𝑉=5,4 J
=2,6%
The biggest energy efficiency is 4,5 %, for car with 14 mm nozzle
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Results of the research 3 parameters were investigated Friction Drag Nozzle Travel path was maximized Efficiency was rated