There isn't really force that helps car turn oh the chosen one... its the rotation of the streering wheel that moves your shaft to turn wheels of the direction you want to go
So if you want to call rotation a force then that's cool.
Give me the Trust points you must !
When you're driving in a car and turn a corner, centripetal force from the door of the car helps you move along the circular path of the corner.
It is false. It is centripetal force that pushes you towards the door of the car opposite the direction of the turn.
Because of centrifugal force. It's like when you spin a open bag or an open water bottle around in a circle (with it going upside down) quickly, nothing spills out. That is also centrifugal force. In the case of driving, the people inside the car move in the opposite direction of the point of rotation of the car. Hope that helps! :)
... you inward toward the center of the turn.
You would apply force to the accelerator to make the car go faster.
gravity, and the force down on the car that is turning
Because there is no centrifugal force. The force of circular motion is inward, thus centripetal. If you are on a car that makes a quick right turn, you feel a "centrifugal" force leftward. But in reality, it is the car making an acceleration to the center of the curve, which is to your right. What you feel is inertia, not a force.
Slow down car speed and then turn the steering wheel to move in a direction (left or right). Make sure that your car speed is enough to make turn and you have full control on your car.
Force and momentum
the child must apply a force on the direction perpendicular to the car from the right side
Because the force of the car turning causes your body to also turn
Rotating energy from the engine forces the drive wheels to turn, forcing the car to move.