Why Are Formula One Tyres So Big?

  • Thread starter Thread starter gene
  • Start date Start date
  • Tags Tags
    Physics
AI Thread Summary
Formula One tires are large primarily to enhance grip and stability during cornering, although the surface area does not directly affect friction in a theoretical sense. Wider tires help navigate uneven surfaces and maintain performance by maximizing energy transfer. The distortion of tires under load generates heat, which can slow the car down, but larger contact areas can reduce this energy absorption. The moment of inertia of the tires does not aid in cornering; instead, cornering performance relies on downforce and the coefficient of friction. Overall, the design of F1 tires is crucial for optimizing grip and efficiency on the track.
gene
Messages
4
Reaction score
0
See for tyres, there arent many factors that are applied with "physics".

But i was wondering, why is formula one tyres so big. Does it produce more grip if it has a bigger area. is there anyway taht it helps to conquor cornerings? Is there any rotational dynamics(moments of inertia) applied in anyway, or there are some other reasons to it?
One more thing, can i assume that the car is able to make a good corner because the tyre produces the maximum amount of inertia preventing the car break the centripetal force?
 
Physics news on Phys.org
pressure = press/area.

the tyres distort when you exert force on it, restore when you remove your hand. In this process, some work is done to the tyre and it'll be changed to heat..

A running F1 car does this repeatly, exgerts its weight on the tyre. that's why the temperature of tyre is so high. It absorb a lot of energy and will slow down the car. when the area contact to the ground increased, pressure down then the distortion of tyre is more light. Then less energy is absorbed.

maitaining the original shape (circular), the tyre may get the best performance in running, get the highest efficency of engine.
 
Originally posted by gene
See for tyres, there arent many factors that are applied with "physics".

Whoa. Yes there are!

But i was wondering, why is formula one tyres so big. Does it produce more grip if it has a bigger area.

Surface area does not, theoretically, affect the force of friction, but in the real world, a wider tire will compensate for traveling over a stone, some sand, or a small slippery spot (this is in addition to what "Wuyh" stated: the shape of the tire maximizes the transfer of energy)
In a perfect world, there would be no difference in friction from a skinny tire and a fat tire


One more thing, can i assume that the car is able to make a good corner because the tyre produces the maximum amount of inertia preventing the car break the centripetal force?

No, do not assume that. If you mean "moment of inertia," then no, this has nothing to do with the cornering. In fact, a greater moment of inertia of the tires would increase the angular momnetum of the tires making it more difficult to turn them. BUt this has nothing to do with the friciton in this case.

The tire's friciton is subject only to the total "down force" (from gravity, aerodynamics, and the reactive "normal force" on banked turns)and the coefficient of friction ("mu").
 

Thread 'The Effect of Linear and Rotational Motion on Measured Weight'

Consider an extremely long and perfectly calibrated scale. A car with a mass of 1000 kg is placed on it, and the scale registers this weight accurately. Now, suppose the car begins to move, reaching very high speeds. Neglecting air resistance and rolling friction, if the car attains, for example, a velocity of 500 km/h, will the scale still indicate a weight corresponding to 1000 kg, or will the measured value decrease as a result of the motion? In a second scenario, imagine a person with a...
View full post »

Thread 'Simple thought experiment with Stefan-Boltzmann law: energy'

Dear all, in an encounter of an infamous claim by Gerlich and Tscheuschner that the Greenhouse effect is inconsistent with the 2nd law of thermodynamics I came to a simple thought experiment which I wanted to share with you to check my understanding and brush up my knowledge. The thought experiment I tried to calculate through is as follows. I have a sphere (1) with radius ##r##, acting like a black body at a temperature of exactly ##T_1 = 500 K##. With Stefan-Boltzmann you can calculate...
View full post »
Thread 'Griffith, Electrodynamics, 4th Edition, Example 4.8. (First part)'

Thread 'Griffith, Electrodynamics, 4th Edition, Example 4.8. (First part)'

I am reading the Griffith, Electrodynamics book, 4th edition, Example 4.8 and stuck at some statements. It's little bit confused. > Example 4.8. Suppose the entire region below the plane ##z=0## in Fig. 4.28 is filled with uniform linear dielectric material of susceptibility ##\chi_e##. Calculate the force on a point charge ##q## situated a distance ##d## above the origin. Solution : The surface bound charge on the ##xy## plane is of opposite sign to ##q##, so the force will be...
View full post »

Similar threads

I How find moment of inertia for car in turn?
Replies
49
Views
5K
A simple physics model for vehicles on different surfaces?
Replies
3
Views
2K
I I'm calculating more energy out than I put in
3
Replies
138
Views
8K
Engineering Applying Physics to Vehicle Dynamics: Do Wheel Number Matter?
3
Replies
102
Views
7K
Automotive Cancelling effects on a larger brake rotor
Replies
14
Views
2K
B Moment of a force about a point
Replies
17
Views
2K
Tyres - why is wider better for lateral grip?
Replies
6
Views
10K
Is Your Brake System Simulation Tool Accurate and User-Friendly?
Replies
5
Views
3K
Tyre Width & Grip: Why Performance Cars Have Wider Tyres
Replies
6
Views
13K
B The physics of flywheel launchers (like tennis ball shooters)
2
Replies
60
Views
4K

Hot Threads

Recent Insights

Back
Top