Why It’s Almost Impossible to Stop From 200 MPH in 3 Seconds
JonnyF1・2 minutes read
A Hummer EV requires over 200 ft to stop in a panic break at 60 MPH, while Formula 1 cars can go from over 200 MPH to a standstill in a short time due to their exceptional braking performance. Formula 1 cars lack ABS and Servo assisted brakes, relying on carbon carbon brakes and generating intense downforce for high-performance braking.
Insights
- Formula 1 cars exhibit exceptional braking performance due to the absence of ABS and Servo assisted brakes, requiring drivers to exert maximum force on the brake pedal.
- The braking capabilities of Formula 1 cars are enhanced by their carbon carbon brakes, which provide outstanding heat resistance and durability, crucial for high-performance braking under extreme conditions.
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Recent questions
How does a Formula 1 car's braking system work?
Hydraulic fluid pushes Pistons against the rotor.
What is the stopping distance of a regular car from 60 MPH?
Less than 150 ft.
How quickly can cars going at 200 MPH stop?
Less than 4 seconds.
What is the difference in stopping distance between a Hummer EV and a CBR?
CBR can stop in half the distance of a Hummer EV.
How do Formula 1 cars achieve exceptional braking performance?
Carbon carbon brakes and intense downforce aid in braking.
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Summary
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"Braking Power: Formula 1 vs Road Cars"
- A 10,000lb Hummer EV at 60 MPH requires over 200 ft to stop in a panic break, while a CBR weighing 20 times less can stop in half that distance.
- A regular car can stop from 60 MPH in less than 150 ft, considered acceptable for road cars.
- Cars going at 200 MPH can stop in less than 4 seconds, showcasing impressive braking capabilities.
- Formula 1 cars can go from over 200 MPH to a standstill in a short time, highlighting their exceptional braking performance.
- Formula 1 brakes work on all four wheels, with hydraulic fluid pushing Pistons against the rotor to create friction for braking.
- Formula 1 cars lack ABS and Servo assisted brakes, requiring drivers to push the brake pedal with maximum force.
- Carbon carbon brakes in Formula 1 cars offer exceptional heat resistance and durability, crucial for high-performance braking.
- Formula 1 cars generate intense downforce at speed, aiding in braking by providing grip and preventing tire lock-ups.
