Quiz „Basics“
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1. What is the maximum amount of points a EV team can recieve at an event?
See FSG Rules 2023 A1.2.5
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2. How many different tyre sizes can be used on a car during an Autocross run?
See FSG Rules 2023 T2.6.2
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3. What is the maximum length of time allowed for the driver change in endurance, in order to recieve no penatly?
See FSG Rules 2023 D7.5.4
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4. How many pages of text are allowed in the Engineering Design Report? (Multiple choice)
See FSG Rules 2023 S3.2
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5. Can a team be eliminated from the Engineering Design Event by the judges, if every document of theirs was accepted and they are present at the Engineering Design Event?
See FSG Rules 2023 S3.5.1
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6. An official has the right to remove the scrutineering sticker from the car, if the car is no longer rule compliant.
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7. What is the minimum height of the characters of the car number?
See FSG Rules 2023 T12.1.2
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8.
Which of the following parts are not part of the Shutdown Circuit? (Multiple choice)
See FSG Rules 2023 EV6.1
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9. How many points are assigned for the BOM and BOM discussion in the Cost and Manufacturing Event?
See FSG Rules 2023 S2.10.1
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10.
A team can register up to how many Electrical System Officers?
See FSG Rules 2023 A4.3.1
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Quiz „Intermediate“
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1. An EV team without driverless components have 9 parts of scrutineering to pass before being allowed to compete on track.
See FSG Rules 2023 IN1.1.1
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2. The team at an event with the highest points in the Buisness Plan Presentation but not reaching the finals has 70 points. Your team received 51 points. What is your Business Plan Presentation Score? Round to one decimal place & don’t forget to use a point instead of comma
See FSG Rules 2023 S1.4.6
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3. Your team completes their best manual acceleration run in 4.2 secs. The fastest team overall completed their run in 4.1 secs. How many points did your team recieve for acceleration? Round to one decimal place.
See FSG Rules 2023 D5.4.2
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4. In which currency must the costs be displayed in the CBOM?
See FSG Rules 2023 S2.6.4
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5. How many different tyre sizes can be used on a car during an Autocross run?
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6. Which statement about the Ready-To-Drive sound is correct?
See FSG Rules 2023 E4.12
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7. What is the penatly for hitting over a cone during skidpad?
See FSG Rules 2023 D9.1.7
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The Electrical System Officer must: (Multiple Choice)
See FSG Rules 2023 A6.10.2, D7.5.2 & D7.5.6
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9. What are requirements of using a standard Impact Attenuator?
See FSG rules 2023: T3.19.1 & T3.19.4
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10. What is the volume of the smallest allowed head restraint? Give answer to two decimal places in m^3
See FSG rules 2023:
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11. How many points are assigned for the pitch video in the Business Plan Presentation Event?
See FSG Rules 2023 S1.4.1
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12. What is the diameter of the outside skidpad circle?
See FSG Rules 2023 D4.1.2
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13. What is the maximum length of time allowed for the driver change in endurance, in order to recieve no penatly?
See FSG Rules 2023 A5.3.2
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14. A team missed the intial deadline for a document and submitted this 49 hours after the deadline. After that the team’s document got accepted. The team will recieve a 10 point penalty.
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15. What is the minimum diameter of the shutdown button in the cockpit?
See FSG Rules 2023 11.4.4
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16. Your team completes their best manual skidpad run in 4.3 secs but knocks down 5 cones. The fastest team overall completed their run in 4.9 secs. How many points did your team recieve for skidpad? Round to one decimal place.
See FSG Rules 2023 D4.4.3
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17. How many dynamic events can one team compete in during a competition?
See FSG Rules 2023 D1.1.3
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18. Which of the following requirements are a must for all non DV electric cars with wings, when moving the vehicle on the competition site? (Multiple choice)
See FSG Rules 2023 A.6.7
Steps:
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19.
Assuming the skid pad event has only two participants, both EV without driverless. Team A and Team B: calculate the score rounded to two decimals for the team scoring the lower amount of points using the following data.
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20. What does the yellow flag mean during the driving disciplines?
See FSG Rules 2023 D2.1.9
FSG Preparation
1. According to the FS Rules and the competition handbook: Which statements are true?
2. Which of the following statements regarding the rules are correct (2024)? Mark all correct answers.
3. A horizontal pipe increases from cross-section 1 with A1 = 2.55 cm2 to cross-section 2 with A2 = 7.1 cm2. In cross-section 1 there is a pressure of p1 = 1.2 bar and a flow rate of v1 = 5 m/s. The density of water is 997 kg/m3. Calculate the pressure in bar in cross-section 2 for the flowing water. Round to two decimals.
4. Fred, the racing alpaca, has made a New Year’s resolution to lose weight to improve his time in Acceleration. Assume that the traction force remains the same, is constant over the entire Acceleration, and that drag or other resistances can be neglected. How much weight must he lose at least to improve his time by 13 %? Answer in % and round to the nearest one.
5.
The figure shows a block diagram of a dynamic system. What is the overall transfer function of the system? Mark the correct answer.
6. Your vehicle has its right-hand base coordinate frame defined with the x-axis pointing forward into the driving direction and the z-axis upwards. A camera is positioned on the vehicle as follows, in the vehicle coordinate frame: x = 500 mm, y = 160 mm, z = 1140 mm and the Euler angles ZY′X′′ roll = 100°, pitch = 0°, yaw = 90° Assume the camera has no distortion, a resolution of 1280 px × 1080 px, and the principal point (cx and cy) and the focal lengths (fx and fy) are given by: cx = 636 px, cy = 548 px, fx = 241 px, fy = 238 px The point (u, v)0 is defined to be (u, v)0 = (-cx, -cy) as commonly used. Within the camera image plane, z-axis in viewing direction, an object center is detected at pixel: u = 795 px, v = 467 px Another sensor determines the euclidian distance of the object to the camera frame as: d = 2.7 m Calculate the 3D position of the object in the vehicle coordinate frame in meter. Round to three decimals. Give the solution in the following format: x, y, z, e.g. 1.234, 5.678, 9.012
7.
The figure shows the output voltage Vout versus the input voltage Vin as the transfer function of 74LVC1G34, a non-inverting LVTTL buffer. The non-inverting LVTTL buffer obeys the following static discipline:
Does the given tranfer curve satisfy the static discipline? Mark all correct answers.
8. The TS of an EV can be simplified to be an ideal TS energy storage and an unshielded TS cable running through free air.
The ideal TS energy storage consists of the following parts: an ideal voltage source V0 supplying 600 V DC at any load an ideal resistor Ri of 28.5 mΩ which combines all resistances in the high current path of the TS energy storage, such as the cell, contact, busbar, wiring, fuse, and outlet connector resistances an ideal circuit-breaker as the main fuse having an appropriate DC voltage rating and a characteristic such that the instantaneous tripping current is 10 times the rated current
The TS cable has the following properties: the cross-section A is 2×6 mm2 the length l is 10 m the specific conductivity κ is 56 m/(Ω*mm2) a 30 % increase in the wire’s resistance covers the thermal behavior and all other effects during a short-circuit event Select the rated current In and breaking capability Icn of the TS energy storage circuit-breaker, such that a short circuit event at any point of the TS wire triggers instantaneous tripping a short circuit event at any point of the TS wire can be interrupted the maximum possible rated current is chosen, although the value might be well above the typical continuous current rating of the cable available values for the rated current In have a step of 10 A (e.g. 10 A, 20 A, 30 A) the minimum possible breaking capability is chosen available values of the breaking capability Icn have a step of 10 kA (e.g. 40 kA, 50 kA, 60 kA) Give the rated current In in A and the breaking capability Icn in kA in the following format: In, Icn e.g. 123, 456
9. You want to use a photo from media.formulastudent.de. Mark the correct answer.
10. Given is the three-dimensional circuit as shown. It consists of three resistors, each 4.7 kOhm, six capacitors, each 470 nF, and three inductors, each 4.7 μH. Calculate the magnitude of the impedance |z| in kOhm between the input and output marked in red for a sinusoidal voltage of 12V and 50 Hz between the input and output. Round to two decimals.
FSG Preparation Short
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2. A horizontal pipe increases from cross-section 1 with A1 = 2.55 cm2 to cross-section 2 with A2 = 7.1 cm2. In cross-section 1 there is a pressure of p1 = 1.2 bar and a flow rate of v1 = 5 m/s. The density of water is 997 kg/m3. Calculate the pressure in bar in cross-section 2 for the flowing water. Round to two decimals.
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3. A single-cylinder four-stroke engine with a total displacement of 623.7 cm3 has the following theoretical design: piston stroke s = 52 mm, connecting rod length l = 66 mm, piston diameter d = 38 mm. The ignition timing point is given as Sk = 2.0 mm before TDC. Calculate the ignition timing point in ° crankshaft before TDC. Round to one decimal.
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4.
The figure shows internal single walls of the TSAC and their cutouts. Which of these walls are rules compliant? Mark all correct answers.
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5. Mark all true statements according to the FS Rules
You only have 10 mins to answer all 4 questions!
Sorry, times up!
Quiz „FSG Multiple Choice“
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1. Mark all true statements according to the FS Rules
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2. In which cases will team members be denied their on-site member pass? Mark all correct answers!
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3. In the following there are multiple statements abount the rules. Which statements are correct?
See FSG Rules 2023
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4. According to the FS Rules and the competition handbook: Which statements are true?
Quiz „Electrical“
1. A thin circular, isolated wire made of copper with radius R lies on a table with its ends connected to a Volt meter. Another, straight wire lies exactly along a diameter of the circular wire, connected to an alternate current source i(t) = I0 sin(wt). The experimental setup is shown in the following Figure:
Which effective voltage Ueff does the Volt meter display? R = 10 cm, maximum current I0 = 1 A, f = 50 Hz. Give your answer in Volts with three decimal places
The magnetic field lines H around the straight, current-carrying wire run in concentric circles, with their centres lying on the wire axis. The field lines thus enter the wire perpendicularly in one half of the circle and leave it perpendicularly in the opposite half. This means that one semicircle of the induction loop is penetrated by the time-varying magnetic flux (t), while the opposite semicircle is penetrated by exactly the opposite flux -(t) for reasons of symmetry. The total flux at any time is zero at all times, which means that no induction voltage and thus no effective voltage Ueff is indicated at any time. The specification of the data in the task was therefore completely superfluous.
2. Your head of powertrain has found a battery cell with excellent specifications and yet cheap. He decides upon a 142s2p accumulator configuration using the cells with a capacity of 5.8 Ah. The manufacturer specifies an internal impedance of 1.5 mOhm. However, after a while you notice the cells are of horrible quality and their real capacity varies significantly leading to an unbalanced accumulator.
He performed experiements to find an approximation of the cells SoC relation to their open-circuit voltage (EMF) as shown in the following figure:
Assume due to imbalance, exactly half of the accumulators cells are at 40% SoC and half at 80% SoC. What current will be drawn at the maximum allowed power usage? Give answer in Amps to nearest whole number
40% SoC -> 3.7V and 1.6 mΩ and 80% SoC -> 3.8V and 1.2 mΩ, total open-circuit voltage
71*3.7 + 71*3.8 = 532.5V
Total impedance = 71 * (1.6m/2) + 71*(1.2m/2) = 99.4mΩ
V*I = I^2*R * 80kW
I = 155 A
3. Which of the following requirements of the brake light assembly must be met to be rules compliant? (multiple choice)
See FSG rules 2023: T6.3
4. The previous season you could recuperate only 27% of your initially stored energy, but this season a big improvement in your drivetrain allows you to recuperate 69% of the initially stored energy. Knowing that you had 6.3 kWh of energy in your accumulator during the last season, how much energy must your new accumulator have, if you assume, that it’s the same length and speed? Give answer in kWh
E_new = E_old * (1+0.27)/(1+0.69)
5. How long will it take to discharge C1 below 60V using the following constant current sink if it is initially charged at 565V? (MOSFET’s VGSth: 4V) Give answer to two decimal places in secs.
Circuit’s current: MOSFET will operate in linear zone, close to the activation voltage. Therefore, as VGSth is 4V, VS can be taken as 8V. From these 8V and the 47R current limiting resistor, the discharge current of the circuit will be 8/47->0,17A As the constant current discharge of a capacitor depends on capacity, as V=i·t/C-> t=V·C/i=(565-60)·0,0012/0,17=3,56s
6. Your BSPD has been triggered although the driver did not touch the driving pedal. What could have gone wrong? (multiple choice)
7. The following processes have to be measured by the AMS. (Multiple choice)
See FSG rules 2023: EV5.8.1, EV5.8.1 & EV5.8.3, EV5.8.10
8. Which of the following statements about the Tractive System Accumulator are wrong? (Multiple choice)
See FSG rules 2023. Correct answers:
9. Which statements about the travel of the driving pedal is correct
FSG Rules 2023: T11.8.1, T11.8.5
10. Your team is considering two languages, Verilog and VHDL, for programming an FPGA. Which languages could be used?
Quiz „General Engineering“
1. The kinetic energy of a 8 lbs 4 oz box as it was dropped reaching ground is 10125J. Determine the speed as it lands. Give answer to one decimal place in m/s.
KE = 0.5 * m * v^2
2. A spring in a church clock has a spring constant of 10 N/m. What is its elastic potential energy store if it is stretched 8 m? Give answer in Joules to three significant figures.
E = 0.5 * k * e^2
3. A spring in a car’s suspension has elastic potential energy store 226 J. If the spring constant is 8.1N/mm, find the extension. Give answer in meters to three significant figures.
4. How much current flows when 99 C passes down a wire in 11 s? Give answer in amps as a whole number.
Q = I * t
5. A lorry contains an engine with a power of 0.255 W. The lorry drives for 51 s. Calculate the energy transferred in Joules and round to one decimal places.
P = E/t = W/t
6. Calculate the gravitational potential energy of a 4 kg object at 15 m above Earth’s surface with gravitational field strength of 9.81 N/kg. Give answer to three significant figures in J.
E = m * g * h
7. A racing car rolls to a stop on a horizontal course with an initial speed of v. It decelerates only by friction with a rolling resistance of μF, which is supposed to be independent of the current velocity. What is the distance s the car needs to stop? v = 300 km/h, μF = 0.15, g = 9.81 m/s2. Give your answer in meters, rounded to four significant places.
8. A vehicle with the mass 190kg, wheelbase 1,56m and tyre static radius 222mm is weighed. Scales measure 83kg (front) and 107kg (rear) when the car measured on the perfectly flat ground and the same values when the front axle is elevated by 0,85m. What is the car’s COG height? Give answer to the nearest whole number in mm
Fb‘ = m*g (at rear axle while front tyres are lifted)
Fb = m*g (at rear axle while car standing on ground)
Fg = m*g (at COG)
L = wheel base
sin(θ) = H/L
r= radius of tyre
9. Calculate the force Fc working at point C.
Rax = 4kN, Ray = 10 kN
Rbx =5 kN, Rby = 8 kN
Moment equation around point D:
0 = -Fc x 1m + Rby x 2.5 m – 60 kN x 4 m + Ray x 5.5 m
Fc = -165 000 N
Fc = – 165 kN
10. The given gearbox consists of two gear sets with wheels 1, 2 and 3, 4 respectively. The wheels are fixed to their shafts. Calculate the drive speed (in rpm) of wheel 4?
Given: n1=600 rpm, z1=18, z2=90, z3=24, z4=120
