Technical regs

1. F1 in Schools™ UAE – 2014/15 Season Technical Regulations
© ADMM Page 1 of 25 8 September 2014
HIGH SCHOOLS CHALLENGE 2014 / 15 Season Technical Regulations
Refer also to the 2014/15 Season Competition Regulations.

2. F1 in Schools™ UAE – 2014/15 Season Technical Regulations
©2014 - ADMM Page 2 of 25 8 September 2014
Amendments made on (DD/MM/YEAR) are indicated thus (using red underlined text).
CONTENTS
PREFACE – SUMMARY OF MAIN REVISIONS FROM 2013/14 REGULATIONS .............................. 4
ARTICLE T1 – DEFINITIONS................................................................................................................. 5
T1.1 F1 in Schools car .................................................................................................................. 5
T1.2 Fully assembled car .............................................................................................................. 5
T1.3 Body ...................................................................................................................................... 6
T1.4 CO2 cylinder chamber .......................................................................................................... 6
T1.5 Wing ...................................................................................................................................... 6
T1.6 Wing support structure .......................................................................................................... 6
T1.7 Nose cone ............................................................................................................................. 6
T1.8 Wheel .................................................................................................................................... 7
T1.9 Wheel support system ........................................................................................................... 7
T1.10 Tether line slot ....................................................................................................................... 7
T1.11 Tether line guide ................................................................................................................... 7
T1.12 Surface finish and decals ...................................................................................................... 7
T1.13 F1 in Schools™ logo decal ................................................................................................... 7
T1.14 Hand finishing ....................................................................................................................... 7
T1.15 Official balsa wood blank ...................................................................................................... 8
T1.17 Vertical reference plane ........................................................................................................ 8
ARTICLE T2 – GENERAL PRINCIPLES ............................................................................................... 8
T2.1 Regulations documents ......................................................................................................... 8
T2.2 Interpretation of the regulations ............................................................................................ 8
T2.3 Amendments to the regulations ............................................................................................ 8
T2.4 Safe construction .................................................................................................................. 8
T2.5 Compliance with regulations ................................................................................................. 9
T2.6 Critical technical regulations ................................................................................................. 9
T2.7 Design ideas and regulation compliance questions. ............................................................. 9
T2.8 Measurements ...................................................................................................................... 9
ARTICLE T3 – FULLY ASSEMBLED CAR ......................................................................................... 10 T3.1 Design, manufacture and construction – [Critical regulations]............................................ 10
T3.2 Finishing – [Penalty – 6pts each] ........................................................................................ 10 T3.3 Undefined features – [Critical regulation │Penalty – 6pts].................................................. 10 T3.4 Overall length – [Critical regulation │Penalty – 6pts] .......................................................... 10 T3.5 Width – [Critical regulations │Penalty – 6pts each] ............................................................ 11 T3.6 Total weight – [Critical regulation │Penalty – 6pts] ............................................................. 11
T3.7 Track clearance – [Penalty – 6pts] ...................................................................................... 11
T3.8 Status during racing - [Penalty – 6pts] ................................................................................ 12
ARTICLE T4 – BODY ........................................................................................................................... 12 T4.1 Body construction – [Critical regulation │Penalty – 6pts] ................................................... 12
T4.2 Implants – [Penalty – 6pts] .................................................................................................. 12 T4.3 Virtual cargo – [Critical regulation │Penalty – 6pts] ............................................................ 12
T4.4 Virtual cargo identification – [Penalty – 3pts] ...................................................................... 13 T4.5 Exclusion Zones – [Critical regulation │Penalty – 6pts] ...................................................... 13
T4.6 Body thickness – [Penalty – 3pts] ....................................................................................... 13
T4.7 F1 in Schools™ logo location – [Penalty – 6pts] ................................................................ 13
ARTICLE 5 - CO2 CYLINDER CHAMBER .......................................................................................... 14

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T5.1 Diameter – [Penalty – 3pts] ................................................................................................. 14
T5.2 Distance from track surface – [Penalty – 2pts] ................................................................... 14
T5.3 Depth – [Penalty – 2pts] ...................................................................................................... 14
T5.4 Thickness of chamber surrounds – [Penalty – 3pts] ........................................................... 14
T5.5 Finishing of chamber surrounds – [Penalty – 2pts] ............................................................. 14
ARTICLE T6 – TETHER LINE SLOT ................................................................................................... 15
T6.1 Location ............................................................................................................................... 15
ARTICLE T7 – TETHER LINE GUIDES ............................................................................................... 15 T7.1 Location – [Critical regulation │Penalty – 6pts] .................................................................. 15
T7.2 Diameter – [Penalty – 2pts] ................................................................................................. 15
T7.3 Guide separation – [Penalty – 2pts] .................................................................................... 15
T7.4 Tether line guide safety – [Penalty – 3pts] .......................................................................... 16
ARTICLE T8 – WHEELS ...................................................................................................................... 16 T8.1 Number and location – [Critical regulation │Penalty – 6pts] ............................................... 16
T8.2 Distance between opposing wheels – [Penalty – 6pts] ....................................................... 16 T8.3 Diameter – [Critical regulation │Penalty – 6pts] ................................................................. 17 T8.4 Width – [Critical regulation │Penalty – 6pts] ....................................................................... 17 T8.5 Visibility from top and side – [Critical regulation │Penalty – 6pts] ...................................... 17
T8.6 Visibility in front view – [Penalty – 6pts each] ..................................................................... 18
T8.7 Race track contact – [Penalty – 2pts] ................................................................................. 18
T8.8 Rolling surface – [Penalty – 3pts] ....................................................................................... 18
T8.9 Wheel support systems – [Penalty – 3pts] .......................................................................... 18 T8.10 Rotation – [Critical regulation – Penalty 6pts] ..................................................................... 19
ARTICLE T9 – NOSE CONE ................................................................................................................ 19
T9.1 Construction ........................................................................................................................ 19
ARTICLE T10 – WING AND WING SUPPORT STRUCTURE ............................................................ 19 T10.1 Description and placement – [Critical regulation │Penalty – 6pts] ..................................... 19
T10.2 Construction and Rigidity– [Penalty – 6pts] ........................................................................ 19
T10.3 Clear airflow – [Penalty – 6pts] ........................................................................................... 19 T10.4 Rear wing location – [Critical regulation │Penalty – 6pts] .................................................. 20 T10.5 Rear wing height – [Critical regulation │Penalty – 6pts] ..................................................... 20 T10.6 Front wing location – [Critical regulation │Penalty – 6pts] .................................................. 20
T10.7 Visibility of front wing – [Penalty – 3pts] .............................................................................. 21
T10.8 Wing identification – [Penalty – 3pts] .................................................................................. 21
T10.9 Front and rear wing span – [Penalty – 3pts each] .............................................................. 21
T10.10 Span segments – [Penalty – 3pts] ...................................................................................... 21
T10.11 Front and rear wing chord – [Penalty – 2pts each] ............................................................. 22
T10.12 Front and rear wing thickness – [Penalty – 2pts each] ....................................................... 22
APPENDIX – OTHER ILLUSTRATIONS ............................................................................................. 23
i. Launch Pod and Finish Gate dimensions ...................................................................................... 23
ii. Official balsa blank dimensions ..................................................................................................... 24

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PREFACE – SUMMARY OF MAIN REVISIONS FROM 2013/14 REGULATIONS
This section provides an overview of articles that have had significant revisions made from the UAE 2013/14 Season Technical Regulations.
T1.6 Definition of ‘Wing Support Structure’ revised. “non-metallic” removed
T1.7 Definition of Nose Cone revised
T2.6 Critical Regulations list revised.
T3 Re-number of Article 3 sub articles. R3.1.3 & 3.1.4 no longer critical regulations.
T3.6 Rookie Class Minimum weight has been increased to minimum of 62 grams +/- 0.5grams
T3.7 ‘Body to track distance’ is no longer a critical regulation
T4.2 Now non-critical regulation
T8.5 Wheel visibility. Added additional text “by any component of the car”
T9.1 Nose cone. Removed “non-metallic”. Penalty removed.
T10.2 Wing and wing support structure construction. Removed “non-metallic”. Now non-critical regulation.
T10.5 Rear wing height redefined
T10.10 Wording revisions. Wing span calculations example reworded
ADVICE
Throughout this document you will find ‘ADVICE’ sections, like this one. These will help you better understand the regulations. The F1 in Schools Competition is very hotly contested and hence over the years the rules have become quite detailed. This regulations document is written just like the technical regulations real Formula One® teams have to comply with. Like on a real F1® team, it’s very important you read the regulations carefully and at least one person on your team should be given the task of being the regulations expert.

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ARTICLE T1 – DEFINITIONS
T1.1 F1 in Schools car
This is also referred to as ‘the car’. Designed and manufactured according to these regulations for the purpose of participating in races on the F1 in Schools™ track at the UAE National Finals event, powered only by a single gas cylinder containing 8 grams of pressurised CO2. F1 in Schools cars are designed to travel the 20 metre race distance as quickly as possible, whilst withstanding the forces of launch acceleration, track traversing and physical deceleration after crossing the finishing line.
An F1 in Schools car assembly must only consist of the following components:
 A body (which includes a virtual cargo)
 A CO2 cylinder chamber
 A front wing
 A rear wing
 Wing support structures
 A nose cone
 Wheels
 Wheel support systems
 A tether line slot
 Tether line guides
 Surface finishing and decals
Adhesives with no dimensional impact are permissible for joining components.
T1.2 Fully assembled car
An F1 in Schools car, without a CO2 cylinder inserted, presented ready for racing, resting on the track surface, free of any external force other than gravity.
ADVICE
Your car can not have any parts on it which aren’t covered by this list of components

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T1.3 Body
A solid uninterrupted piece of balsa wood existing rear of the front axle centre line and encompassing both the virtual cargo and CO2 cylinder chamber. For dimensional purposes the body also includes any attached decals and surface finishes. Any balsa wood forward of the front axle centre line is not defined as car body.
T1.4 CO2 cylinder chamber
A circular cylinder of clear space bounded along its side and one end by car body only. This is where the CO2 gas cylinder is placed for racing.
T1.5 Wing
A wing on an F1 in Schools car is an aerodynamic feature that permits airflow around ALL of its surfaces including its features of a leading and trailing edge. A wing is dimensionally defined by the maximum and minimum span, chord and thickness. In engineering terms, the vertical cross-sectional shape of the wing, parallel to the direction of car travel, is referred to as an aerofoil.
Wing cross-section / aerofoil nomenclature
T1.6 Wing support structure
Is a feature, other than wing, car body or nose cone that joins a wing surface to another component of the car assembly.
T1.7 Nose cone
The nose cone is a component of the car, other than wheel, wheel support system, wing or wing support structure, that exists forward of the front axle centre line. This includes any balsa wood material that continues forward of the front axle centre line.
Wing Support Structures
ADVICE
Your car may also have the nose cone and wings made from the standard balsa block, but for the purpose of this definition, the car body is only the balsa that is rear of the front axle centre line.

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T1.8 Wheel
A wheel is a single part or assembly of components, cylindrical in form, with its maximum circumference contacting the track surface, enabling motion of the car through rotation. All material existing within the volume of the extreme diameter and width is considered to be part of the wheel.
T1.9 Wheel support system
Wheel support systems are single parts or an assembly of components that connect a wheel to any other part of the car. These may consist of a combination of manufactured or commercial parts. I.e. Bearings, bushes and axles could be used.
T1.10 Tether line slot
An optional component of the car, the tether line slot is a rectangular prism of clear space that is bounded by solid material on three sides of its length. A slot features on the official balsa wood blank and this may be incorporated into the cars design as a tether line slot.
T1.11 Tether line guide
A tether line guide is a key safety component which completely surrounds the track tether line so as to safely connect the car to the tether line during races. A tether line guide can be a component sourced from a supplier or manufactured wholly or in part by the team.
T1.12 Surface finish and decals
A surface finish on an F1 in Schools car is considered to be any applied visible surface covering, of uniform thickness over the profile of a car component. A decal is material adhered to a component or surface finish. To be defined as a decal, 100% of the area of the adhering side must be attached to a surface. Surface finishes and decals are included when measuring the dimensions of any components they feature on.
T1.13 F1 in Schools™ logo decal
This consists of the F1 in Schools™ logo graphic printed on either black or white adhesive vinyl with a horizontal dimension of 30mm and vertical dimension of 15mm. Teams choose to use either the black or the white background decal so as to provide maximum contrast with the colour of the surface the decal is being adhered to. Official decals are supplied by F1 in Schools UAE at event registration. A team can manufacture and fit their own decals, provided they are the correct size, colour and graphic design.
Decal design with black background.
T1.14 Hand finishing
Hand finishing is defined as use of a hand powered device (e.g. abrasive paper) for removing only the irregularities that may remain on a CNC machined surface of the car body. These irregularities are often referred to as ‘scalloping marks’.
ADVICE
Turn to the picture of the standard balsa blank in the appendix to see the tether line slot. ‘Blank’ is an engineering term meaning a manufactured article of a standard shape or form that is ready for final processing.

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T1.15 Official balsa wood blank
The official balsa wood blank is a homogenous piece of forested balsa wood, processed to the dimensional features as shown by diagrams in the appendix of this document.
T1.17 Vertical reference plane
To assist with describing dimensions, it is assumed that an invisible plane exists two dimensional along the length of the CO2 cylinder chamber centre axis and perpendicular to the track surface. This is known as the vertical reference plane.
ARTICLE T2 – GENERAL PRINCIPLES
T2.1 Regulations documents
T2.1.1 F1 in Schools UAE issues the regulations, their revisions and amendments made.
T2.1.2 UAE Technical Regulations - This document. The Technical Regulations document is mainly concerned with those regulations that are directly related to F1 in Schools car design and manufacture. Technical Regulation article numbers have a ‘T’ prefix.
T2.1.3 UAE Competition Regulations – A document separate to this one which is mainly concerned with regulations and procedures directly related to judging and the competition event. Competition Regulation article numbers have a ‘C’ prefix.
T2.2 Interpretation of the regulations
T2.2.1 The final text of these regulations is in English should any dispute arise over their interpretation. The text of a regulation, diagrams and any related definitions should be considered together for the purpose of interpretation.
T2.2.2 Text clarification - Any questions received that are deemed by F1 in Schools UAE to be related to regulation text needing clarification will be answered by F1 in Schools UAE The question received, along with the clarification provided by F1 in Schools UAE, will be published to all competing teams at the same time.
T2.3 Amendments to the regulations
Any amendments will be announced and released by F1 in Schools UAE by email notification to all registered schools. Any amended text will be indicated thus (using red underlined text).
T2.4 Safe construction
T2.4.1 Specification judging - All submitted cars will be inspected closely to ensure that they are engineered and constructed safely for the purpose of racing. High importance is placed on
ADVICE
Go to the appendix and review the balsa blank / block. It’s super critical that you understand the dimensions of the block before you start designing your car!

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ensuring that tether line guides are robust and secure. If the Judges rule an aspect of the primary race car to be unsafe for racing, the team will be required to use their back-up race car. If the back-up race car is also ruled to be unsafe, repairs / modifications can be carried out on the primary race car. Any such repair work or change of car will result in a penalty of 5 points.
T2.4.2 During racing – The race Officials will routinely inspect cars for safety during scheduled races. If the Officials rule a car to be unsafe, the back-up race car will be used and a penalty of 5 points will be imposed. The team may repair the primary race car as per the Competition Regulations, Article C9 – Car Repairs and Servicing.
T2.5 Compliance with regulations
Points are deducted for non-compliance with the technical regulations as per the specification judging score card. Both the primary and back-up race cars are scrutineered and points will be deducted for any infringements on either car. These penalties are only imposed once, per infringement, per car. Several regulations have been identified as ‘critical regulations’.
T2.6 Critical technical regulations
T2.6.1 Regulations identified as a critical technical regulation are listed in this article. If a team’s primary race car is judged as being NON-COMPLIANT with any critical technical regulation they will be INELIGIBLE for the following awards:
 UAE National Champions
 Fastest Car
 Best Engineered Car
T2.6.2 If the back-up race car is used for any races, it must also comply with all critical technical regulations for the team to be eligible for these awards.
T2.6.3 The critical technical regulations are articles: T3.1/ T3.3 / T3.4 / T3.5 / T3.6 / T4.1 / T4.3 / T4.5 / T7.1 / T8.1 / T8.3 / T8.4 / T8.5 / T8.10 / T10.1 / T10.4 / T10.5 / T10.6
T2.7 Design ideas and regulation compliance questions.
Teams are not permitted to seek a ruling from F1 in Schools UAE or any competition officials or judges before the event as to whether a design idea complies with these regulations. Rulings will only be made by the Judges at the UAE National Finals event. Design compliance to the regulations forms part of the competition. As in Formula 1™ innovation is encouraged, and F1 in Schools™ teams may also find ways of creating design features that push the boundaries of the regulations in order to get an extra competitive edge.
T2.8 Measurements
T2.8.1 Tolerance when measuring all dimensions is +/- 0.5mm unless otherwise stated.
T2.8.2 Tolerance when measuring weight is +/- 0.5grams.
T2.8.3 Dimensional measures - All car component dimensions are inclusive of any applied paint finish or decal. A series of specially manufactured gauges will be used to broadly verify dimensional compliance. Accurate measuring tools, such as vernier calipers, will then be used to closely inspect any dimensions found to be close to the dimensional limits per the initial gauge inspection.
ADVICE
As per the name, Critical regulations are the most important regulations. You MUST ensure that you don’t break any of these rules which are all highlighted in yellow!
ADVICE
To help ensure that you don’t break rules, don’t design your car to the size limits. Leave yourself some room for manufacturing and assembly error.
ADVICE
The term ‘tolerance’ means that you have a margin of accuracy to comply within.

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T2.8.4 Weight measures – all weight measurements will be made using the UAE F1 in Schools electronic competition scales which are accurately calibrated to +/- 0.1 gram.
ARTICLE T3 – FULLY ASSEMBLED CAR T3.1 Design, manufacture and construction – [Critical regulations]
T3.1.1 All F1 in Schools™ cars must be designed and engineered using CAD (Computer Aided Design) and CAM (Computer Aided Manufacture) technology. CAD software used should provide for 3D part modelling, assembly and 3D realistic rendering. The CAM package should allow students to simulate CNC machining processes so they can show evidence of these in their portfolio. We recommend the use of DENFORD QuickCAM PRO software.
T3.1.2 The body of all F1 in Schools™ cars must be manufactured via material removal using a CNC router/ milling machine. We recommend all teams use a DENFORD CNC router. This manufacturing process should occur at your school/college or at a designated manufacturing centre/partner site.
T3.1.3 The primary and back-up race cars must have identically designed components.
T3.2 Finishing – [Penalty – 6pts each]
T3.2.1 Hand finishing of the car assembly is permitted. Refer ARTICLE 1.14
T3.2.2 Surface finish - Each car body should feature a high quality surface finish. T3.3 Undefined features – [Critical regulation │Penalty – 6pts]
The car assembly must only consist of components listed in ARTICLE 1.1. T3.4 Overall length – [Critical regulation │Penalty – 6pts]
This is measured parallel to the track surface and vertical reference plane, between the front and rear extremities of the assembled car.
Min: 170mm / Max: 210mm
ADVICE
Research CNC 3 axis machining. F1 in Schools UAE will use a 3 axis CNC machine to manufacture your car. Sometimes teams try to create very complex shapes which can’t always be accessed by the machines cutting tool.

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T3.5 Width – [Critical regulations │Penalty – 6pts each]
Maximum assembled car width, measured normal to the vertical reference plane, between the outside edges of the widest feature of the car assembly.
Max: 85mm
T3.6 Total weight – [Critical regulation │Penalty – 6pts]
Total weight is the weight of the car excluding a CO2 gas cylinder. If ruled underweight, ballast will be added before racing, at 2 grams for every gram underweight.
Minimum: 52.0grams.
T3.6.1 Rookie Category – [Critical Regulation] Total Weight – Minimum 62.0 grams
T3.7 Track clearance – [Penalty – 6pts]
Distance between track surface and any car component, except the rolling surface of a wheel. Measured normal to the track surface
Min: 2mm
ADVICE
The fastest cars are usually designed at the minimum weight. Design your car as light as possible. Look at the regulations carefully so you can work out how to legally add weight as ballast to bring your car up to the minimum weight.

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T3.8 Status during racing - [Penalty – 6pts]
The car assembly must be designed so that no items other than CO2 cylinders are removed, replaced or added to the assembly during scheduled race events.
ARTICLE T4 – BODY T4.1 Body construction – [Critical regulation │Penalty – 6pts]
A single continuous piece of CNC manufactured balsa wood material must exist rear of the front axle centre line, encompassing both the virtual cargo and CO2 cylinder chamber. T4.1.1 Rookie Category – [Critical Regulation] Rookie Category car body designs may only be manufactured using a maximum of two 3 axis machining processes. I.e. Car body machine once for each side OR one top machining process and one bottom machining process.
T4.2 Implants – [Penalty – 6pts]
No implants / foreign objects are permitted in the car body
T4.3 Virtual cargo – [Critical regulation │Penalty – 6pts]
A virtual cargo must be completely encompassed by the body and be wholly positioned between the front and rear wheel centre lines. The virtual cargo must have minimum dimensions as shown below, with its top surface located symmetrical about, and positioned normal (90 degrees) to the vertical reference plane. The virtual cargo may be intersected by the FRONT wheel support system and may also share common faces with the car body.
40mm
8mm
Top
Surface
60mm
8mm
8mm
Vertical reference plane
20mm
ADVICE
It is extremely important that you ensure that all parts of your car that are to be made from the balsa wood actually fit within the dimensions of the standard block. This includes the body and also any wings you may design to be machined from the balsa block. See the appendix to find the balsa block dimensions. The block is 65mm wide and 50mm high
ADVICE
One of the tricky rules to understand…Your car body must be big enough between the front and rear axles so that this 3D shape could fit inside it

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T4.4 Virtual cargo identification – [Penalty – 3pts]
The virtual cargo location and compliance MUST be clearly identified within the design portfolio engineering drawing and any drawings submitted for scrutineering.
T4.5 Exclusion Zones – [Critical regulation │Penalty – 6pts]
When viewed from the top, car body must not exist within a volume 15mm immediately rear of either front wheel. The volume width is equal to the wheel width, and height from track surface is equal to the wheel diameter. This is measured in the top view, parallel to the vertical reference plane and track surface.
T4.6 Body thickness – [Penalty – 3pts]
No part of the body is allowed to be less than 3.5 mm thick. This is measured normal to the body surface.
T4.7 F1 in Schools™ logo location – [Penalty – 6pts]
An F1 in Schools™ logo decal (refer ARTICLE T1.13) must be wholly adhered to each side of the car, positioned between the front and rear wheels and being clearly legible in the respective side view. Teams should choose to use the decal type, (black or white background), that provides the greatest contrast against the colour of the car body
F1 in Schools™ Logo Decal Location
ADVICE
This is so that you can prove to the judges that the virtual cargo 3D shape can in fact fit inside your car body
ADVICE
There must be clear air space behind each front wheel as per the described dimensions
ADVICE
“Measured normal” is an engineering term which means ‘at 90 degrees’ to a surface.
ADVICE
If not making your own, F1 in Schools will issue the logo stickers to teams at the competition event

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ARTICLE 5 - CO2 CYLINDER CHAMBER
T5.1 Diameter – [Penalty – 3pts]
CO2 cylinder chamber diameter, measured at any point through its depth.
Min: 19.5mm
T5.2 Distance from track surface – [Penalty – 2pts]
Lowest point of the chamber opening to the track surface, measured normal to the track surface.
Min: 22mm / Max: 30mm
T5.3 Depth – [Penalty – 2pts]
Depth of chamber measured parallel to the vertical reference plane anywhere around the chamber circumference from opening to chamber end.
Min: 50mm / Max: 60mm
T5.4 Thickness of chamber surrounds – [Penalty – 3pts]
The CO2 cylinder chamber must be surrounded by balsa car body only. Chamber surrounds below the minimum thickness may be considered a safety issue, refer ARTICLE 2.4. Minimum thickness is measured through any line of the chamber radius.
Min: 3.5mm
T5.5 Finishing of chamber surrounds – [Penalty – 2pts]
The inside surface must be free of any paint, other surface finish or decals.
ADVICE
The CO2 cylinder chamber is pre- drilled as part of the standard balsa wood blank. Therefore the diameter and depth rules are taken care of for you. HOWEVER, You MUST ensure that the centre of your Cylinder Chamber hole in CAD, is located 29mm from the bottom of the balsa blank when designing your car body to fit within the block. The distance of the chamber from the track surface will be determined by the position you choose for your axles.

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ARTICLE T6 – TETHER LINE SLOT
T6.1 Location
A tether line slot is an optional feature, free in length and location. The official balsa wood blank features a standard slot machined along the centre of its underside.
ARTICLE T7 – TETHER LINE GUIDES T7.1 Location – [Critical regulation │Penalty – 6pts]
Each car must have two (2) firmly secured tether line guides, one toward the front and one toward the rear of the car. The track tether line must pass through both tether line guides during racing.
T7.2 Diameter – [Penalty – 2pts]
Referring to the hole within the guide which the tether line passes through, diameter
Min: 3mm / Max: 5mm
T7.3 Guide separation – [Penalty – 2pts]
The shortest distance between the inside edges of the guides, measured parallel to the track surface and vertical reference plane.
Min: 120mm / Max: 190mm
ADVICE
Your car body underside could be shaped so that the tether line slot is machined away. If your car body is very close to the track surface, you may choose to leave the slot as part of your design. See the balsa blank diagram in the appendix.
ADVICE
Your car will be tethered (secured) via monofilament (fishing) line that runs the full length of the race track. The line is threaded through the tether guides before racing. A standard set of screw eyes are supplied with your car kit

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T7.4 Tether line guide safety – [Penalty – 3pts]
Guide holes must be completely closed to prevent the tether line from slipping out during racing. The construction of the tether line guides will be closely examined in relation to safety, refer ARTICLE T2.4. The guides must be robust so as to prevent the diameter or shape changing during racing.
ARTICLE T8 – WHEELS T8.1 Number and location – [Critical regulation │Penalty – 6pts]
The car assembly must include 4 cylindrical wheels, two at the front and two at the rear. Opposing wheels must share a common centre line / axis.
T8.2 Distance between opposing wheels – [Penalty – 6pts]
The innermost distance between THE TWO opposing wheels which are the FURTHEST APART. Measured parallel to the track surface.
Min: 30 mm
T8.1.1 Rookie Category – [Critical Regulation] Rookie Category cars must be designed and manufactured using the standard F1 in Schools wheels and axle system supplied by F1 in Schools UAE. Specifically;  Four standard (Fusion style) supplied wheels, unmodified.  Two axle guides (straw material), can be modified  Two axles as supplied or a different material with the same diameter.  The axle guide holes may be machined by a hand or a CNC process.  No other modifications to the wheels or axle systems are allowed.
ADVICE
Rookie Category teams must use the standard F1 in Schools wheels that are supplied with your car kit. This helps level out the competition in racing and makes car design much easier for beginners. To help you save time, download the pre-designed Autodesk CAD models of the standard wheels so that you can quickly add them to your 3D car body. Do this so that you can make sure you have designed your body with enough space for your wheels. Don’t forget the ‘exclusion zone’ rule behind the front wheels!
ADVICE
This basically means that EITHER the front or rear wheels must be at least 30mm apart

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T8.3 Diameter – [Critical regulation │Penalty – 6pts]
Wheel diameter measured to the rolling surface.
Min: 26mm / Max: 34mm (Tolerance is +/- 0.1mm) T8.4 Width – [Critical regulation │Penalty – 6pts]
Wheel width measured along the rolling surface contact line.
Min: 15mm / Max: 19mm (Tolerance is +/- 0.1mm)
T8.5 Visibility from top and side – [Critical regulation │Penalty – 6pts]
The wheels are not allowed to be inside the car body and the wheel view cannot be obscured in any way, by any component of the car, in the car’s top and side elevation views.
View of all wheels not obstructed in the top or side views
ADVICE
It’s very common that Professional Category teams design their own wheels and get these 3D printed. Don’t design your wheels right on the rule limits, Sometimes finished 3D printed parts aren’t exactly the dimensions of your 3D model!
ADVICE
A common mistake is the wheel view being obstructed by wing.

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T8.6 Visibility in front view – [Penalty – 6pts each]
Visibility of the front wheels in the car’s front view may only be obstructed to height of 15mm from the track surface.
T8.7 Race track contact – [Penalty – 2pts]
All 4 wheels must touch the racing surface at the same time across the full width of the wheel, assuming the tolerance of +/- 0.5mm.
T8.8 Rolling surface – [Penalty – 3pts]
The wheel diameter must be consistent across the whole rolling surface. I.e. No tread like features are permitted.
T8.9 Wheel support systems – [Penalty – 3pts]
Wheel support systems may only exist within the cylindrical volume generated through the maximum diameter of two opposing wheels.
ADVICE
Check no part in front of the wheel is higher than 15mm from the track.
ADVICE
Rushed assembly or poorly engineered wheel systems is often an area that sometimes lets teams down. Don’t leave it to the last minute and makes sure all your parts and joining methods will be strong enough.

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T8.10 Rotation – [Critical regulation – Penalty 6pts]
The track contact surface of all four wheels must rotate freely about their own centre axis to facilitate motion of the car during racing. The scrutineering judge must be able to validate this with reasonably minimal effort.
ARTICLE T9 – NOSE CONE
T9.1 Construction
The nose cone can be manufactured from any material.
ARTICLE T10 – WING AND WING SUPPORT STRUCTURE T10.1 Description and placement – [Critical regulation │Penalty – 6pts]
The design of the car should resemble an actual F1 car through the inclusion of a wing on the front nose of the car and a wing at the rear of the car. Each wing must have a leading edge and a trailing edge. Refer to definition at ARTICLE 1.5.
T10.2 Construction and Rigidity– [Penalty – 6pts]
The front wing, rear wing and any support structures may be manufactured from a separate material. The wing span dimension must remain unchanged during races. I.e. Wings must be rigid, ruled at the Judge’s discretion.
T10.2.1 Rookie Category – [Critical Regulation] Front Wing - The front wing and any support structures may be manufactured from a separate material. Rear Wing - The rear wing must be manufactured and machined from the same balsa block as the car body. The wing chord and span dimensions must remain unchanged during races. I.e. Wings must be rigid, ruled at the Judge’s discretion.
T10.3 Clear airflow – [Penalty – 6pts]
A wing surface must have a minimum of 3mm of clear ‘air’ space completely surrounding it, measured normal to the wing surface to any other part of the car.
ADVICE
Check the definition of a nose cone. There are no specific size restrictions, other rules restrict what can be done in this area.
ADVICE
Wing rules are the most complex. Read them and the definition carefully. Rookie teams are only allowed to make the front wing from material other than the balsa wood. 3D printed front wings are an option to consider. If you choose this, design the wing and support structure as a separate 3D part. Then it can be saved separate for printing.

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T10.4 Rear wing location – [Critical regulation │Penalty – 6pts]
The whole of the rear wing and any support structure must be behind the centre line of the rear wheel when viewed in the side elevation.
T10.5 Rear wing height – [Critical regulation │Penalty – 6pts]
The bottom surface of the rear wing must be higher than 34mm when measured from and normal to the track surface
T10.6 Front wing location – [Critical regulation │Penalty – 6pts]
The whole of the front wing and any support structure must be in front of the centre line of the front wheel when viewed in the side elevation.
Bottom surface of rear wing higher than 34mm above track surface

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T10.7 Visibility of front wing – [Penalty – 3pts]
Visibility of the front wing must not be obstructed by any other component when viewed in the front elevation.
T10.8 Wing identification – [Penalty – 3pts]
The surfaces defining both the front and rear wings MUST be identified clearly within the engineering drawings submitted for specification judging or in the design portfolio engineering drawing.
T10.9 Front and rear wing span – [Penalty – 3pts each]
Where the wing span is intersected by another part of the car, the total span is the sum of each segment. The wing span is measured on the top or bottom surface of the wing, whichever is shortest, parallel to track surface and normal to the vertical reference plane.
T10.9.1 Front wing span - Min: 40mm (Tolerance is +/- 0.1mm)
T10.9.2 Rear wing span – Min 40mm (Tolerance is +/- 0.1mm)
T10.10 Span segments – [Penalty – 3pts]
The span of a wing can be intersected by the car body, nose cone or wing support structure to form span segments. All span segments must conform to the wing chord and thickness regulations. At least two (2) of the front wing segments and two (2) of the rear wing segments must be no less than the minimum size.
Min segment size: 20mm (Tolerance is +/- 0.1mm)
Wing Span Calculations Explained
T10.10 – To be included in the judge’s wing span calculation, a wing segment must be at least 20mm wide. If ANY of the segments A, B, C, D, E, F & G were less than 20mm, they would not qualify as wing segments, but would instead be treated as wing support structures. For example, suppose each of the segments C, D or F were less than 20mm, they would not count as wing segments.
In this situation:
T10.9.1 – Minimum front wing span would be A+B only
T10.9.2 – Minimum rear wing span would be E+G only
ADVICE
If your wings are going to made from the balsa block, make sure that the width from wing tip to wing tip does not exceed the width of the standard balsa blank!

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T10.11 Front and rear wing chord – [Penalty – 2pts each]
The wing chord minimum and maximum dimensions must exist throughout the wings minimum span. The chord is the distance between the leading edge and trailing edge measured parallel to the vertical reference plane.
T10.11.1 Front wing chord - Min: 15mm / Max: 25mm (Tolerance is +/- 0.1mm)
T10.11.2 Rear wing chord – Min 15mm / Max 25mm (Tolerance is +/- 0.1mm)
T10.12 Front and rear wing thickness – [Penalty – 2pts each]
The wing thickness minimum and maximum dimensions must exist throughout the wings minimum span, measured perpendicular to the chord line.
T10.12.1 Front wing thickness - Min: 1.5mm / Max: 6mm (Tolerance is +/- 0.1mm)
T10.12.2 Rear wing thickness – Min 1.5mm / Max 6mm (Tolerance is +/- 0.1mm)
ADVICE
Research the terms ‘wing span’ and ‘wing chord’ so that you know exactly what these mean. Make sure your wing has enough total span and that the minimum and maximum chord dimension is maintained through the entire span
ADVICE
Wings made from balsa wood can easily break during racing, or even during CNC manufacture if they are too thin! Balsa wood wings should be at least 3mm thick throughout the span to help ensure they don’t fail during racing. Breakage is worse than the milli-second of race time caused by a thicker wing! To win a Formula One Grand Prix, first, you have to finish!

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APPENDIX – OTHER ILLUSTRATIONS
i. Launch Pod and Finish Gate dimensions
Launch Pod Side and Front Views
Finish Gate and Race Track section view from rear

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ii. Official balsa blank dimensions
Below: Orthographic projection of balsa blank. All dimensions shown in millimetres
Right: 3D rendering of balsa blank
Tether line slot on bottom of blank
CO2 Cylinder Chamber

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F1 IN SCHOOLS UAE 2014/15