This is a video showcasing how the front brakes work.
The front brakes still operate conventionally; where the driver pushes the pedal with a force of 160Kg.
The rear brakes however, have an additional master cylinder which is electronically controlled. Therefore, during braking, fluid is moved through the rear master cylinder as normal, however the MGU-K then determines the amount of pressure applied to the rear caliperβs
Now, if there were videos available like this for showing you how to fix your car and what is affected when something goes wrong in your car, this would be great!
This is not true. The brake fluid is always in the hose and compression force is transmitted in the speed of sound in the fluid. Itβs much faster than fluid flowing from the reservoir to the brake pads
no one has heard of a hybrid ???(on f1). the brakes work on the same principle as any brakes, starting with a bicycle, this is "educational" content, however…
46 Comments
This is a video showcasing how the front brakes work.
The front brakes still operate conventionally; where the driver pushes the pedal with a force of 160Kg.
The rear brakes however, have an additional master cylinder which is electronically controlled. Therefore, during braking, fluid is moved through the rear master cylinder as normal, however the MGU-K then determines the amount of pressure applied to the rear caliperβs
Now, if there were videos available like this for showing you how to fix your car and what is affected when something goes wrong in your car, this would be great!
Ah ok, so like normal brakes. Got it.
Pretty much air in these tubes π
This is a really cool visual yet a very basic concept. This is also how the brakes work on my car.
What's new here bro βπ
Only front brakes?
Took 3 seconds for those brakes to start stoping . I guess you have step on the brakes a mile before enter a corner
This is not true. The brake fluid is always in the hose and compression force is transmitted in the speed of sound in the fluid. Itβs much faster than fluid flowing from the reservoir to the brake pads
Its not as simple as that
does it have abs system??
So basically how my carβs brakes work? Great.
Like entry other brake just no power
So… The same as every other car
Front brake ping is too highπ
ΠΠ΅ΡΠΆΠ΅Π»ΠΈ ΡΠ°ΠΊ Π΄ΠΎΠ»Π³ΠΎ? π
No way!
After watching this video "I am an expert at these brakes" π
ne kadar deΔiΕikmiΕ mΓΌkemmel teknoloji , ordan basΔ±yorsun hidrolik Εutaya gidiyor vay be.
π
Does It work by oil pressure?
I love you're using Sainz's car as an example π
Exactly like my bicycle
Sbinnala
Still don't understand
Bono my tyres are breaking
I β€ f1
Thats how every brake works nowadays
ALL cars
So they don't want you to stop the car
So, like brakes?
POV waiting 5,000 years till those brakes work
πͺπͺπͺπΉπΉπΉπΏπΏπΏπ₯Άπ₯Άπ₯Ά
F1 cars are literally a mechanical engineer's wet dream.
no one has heard of a hybrid ???(on f1). the brakes work on the same principle as any brakes, starting with a bicycle, this is "educational" content, however…
Now we can see the road clearly
Bro how strong they calves are like it take 100kg force
They work in the same way as they work in normal cars with disk brakes….
Fome conchetumare
That speed. Looks like Hamiltonβs car in Vegas qualifying
it has a brake lag.
pressed brake pedal but untill the fluid reached to calipers engine still going faster. Indian workmanship
Really? 5 seconds to impact?
Are you saying drivers are prophet, who knows the future?
IT TOOK 2 BUSINESS WORKING DAYS ππππ
ΠΠ°ΠΊ Π½Π΅ΠΎΠ±ΡΡΠ½ΠΎ.
F1 its only front brake?
Stroll taking notes
Tarda bastante en llegar el lΓquido, como hacen para adivinar cuando van a frenar desde antes?