When rounding a curve, what is a car likely to do?

When a car rounds a curve, it is influenced by the forces acting on it, particularly centrifugal force, which pushes the vehicle outward. As a result, cars are likely to move to the outside of the curve if they maintain their speed or if the driver does not adjust their steering appropriately.

This tendency occurs because the vehicle tries to maintain a straight path due to inertia, meaning it will want to continue traveling in a straight line rather than following the curvature of the road. If the driver does not slow down or steer properly when approaching a curve, the car may drift toward the outside edge of the lane, closer to the shoulder or potentially off the road.

Rounding a curve effectively requires the driver to understand the need for reduced speed and proper steering to counteract this natural outward movement. Therefore, recognizing that a car is likely to move to the outside of the curve highlights the importance of understanding vehicle dynamics and driving techniques necessary for safe navigation through curves.