Do bigger tires make your car go faster?

As an automotive expert with a deep understanding of the mechanics and physics behind vehicle performance, I can provide a comprehensive answer to the question of whether bigger tires make a car go faster.

Firstly, it's important to clarify that the size of the tires alone does not directly correlate with increased speed. There are many factors that contribute to a vehicle's speed, including engine power, transmission efficiency, aerodynamics, and weight, among others. However, the size of the tires can indirectly affect speed through its influence on traction, rolling resistance, and vehicle handling.

Traction is a critical factor in how fast a car can accelerate. Larger tires can potentially provide more traction, especially on uneven or off-road surfaces, due to their larger contact patch with the ground. This increased traction can help the car accelerate faster, assuming the engine and drivetrain are capable of utilizing this advantage.

Rolling resistance is the force that opposes the motion of a tire as it rolls along a surface. Larger tires can have higher rolling resistance, especially if they are wider and have a larger contact area with the road. This can reduce the efficiency of the vehicle and potentially slow it down, as more energy is lost in overcoming this resistance.

Vehicle handling is also influenced by tire size. Larger tires can change the vehicle's center of gravity and its handling characteristics. In some cases, larger tires can improve handling by providing a more stable platform, which can be beneficial for high-speed cornering. However, if not properly matched with the vehicle's suspension and other components, larger tires can also lead to instability and reduced handling.

Now, let's consider the analogy provided about bikes with larger wheels. The principle that a larger wheel will go faster if it's spinning at the same RPM as a smaller one is based on the simple fact that the circumference of a larger wheel is greater. This means that for every revolution, a larger wheel covers more distance. However, this analogy has limitations when applied to cars.

Cars are not just about the wheels; they are complex machines with engines, transmissions, and a host of other components that all contribute to speed. The engine must be powerful enough to overcome the increased rolling resistance of larger tires, and the transmission must be able to effectively transfer that power to the wheels. Moreover, the vehicle's aerodynamics play a significant role in speed, and larger tires can sometimes disrupt the airflow around the car, leading to increased drag.

In conclusion, while larger tires can potentially contribute to a car's speed by providing better traction and improved handling, they can also hinder speed by increasing rolling resistance and potentially affecting aerodynamics. The overall effect on speed will depend on the specific characteristics of the tires, the vehicle's powertrain, and how well the tires are matched to the rest of the vehicle's components.

Do bikes with larger wheels go faster than ones with small wheels? Yes; provided the wheels are turning at the same RPM. You have to put proportionately more effort into turning a big wheel but it will go faster if you can keep it spinning at the same rate as a small one.