Cornering force is a measure of the amount of force that can be exerted on a vehicle while cornering. It is an important factor in determining the handling and stability of a vehicle. A cornering force calculator can be used to calculate the cornering force of a vehicle, given certain inputs such as the vehicle’s weight, tire size, and suspension geometry.
To calculate the cornering force of a vehicle, the first step is to determine the vehicle’s weight distribution. This can be done by measuring the weight of the vehicle on each wheel, and then dividing the weight of each wheel by the total weight of the vehicle. The result is the weight distribution for each wheel.
Next, the tire size and suspension geometry of the vehicle must be taken into account. The tire size will affect the amount of grip that the tires have on the road, while the suspension geometry will affect the amount of roll and dive that the vehicle experiences while cornering.
Once the weight distribution, tire size, and suspension geometry are known, the cornering force can be calculated using the following formula:
Cornering force = (Weight distribution x Tire grip) / (Suspension geometry)
The resulting cornering force will be measured in units of weight (such as pounds or kilograms).
It is important to note that while a cornering force calculator can provide an estimate of the cornering force of a vehicle, it is not a substitute for real-world testing. Factors such as road conditions, driver skill, and vehicle maintenance can also play a significant role in determining the actual cornering force of a vehicle.
In conclusion, a cornering force calculator is a useful tool for understanding the handling and stability of a vehicle. By inputting key information such as weight distribution, tire size, and suspension geometry, drivers and mechanics can calculate the cornering force of a vehicle and make adjustments accordingly to improve handling and safety.