Unbalanced. The rotational force upon the drive wheels must be greater than the force of inertia in order for the car to begin moving.
balanced
Yes, if a car is moving at a constant speed, balanced forces must be acting on it. This means that the force pushing the car forward is equal to the resistive forces acting against it (like friction and air resistance), resulting in zero net force and a constant velocity.
The cable holding a car at the top of a free fall ride is an example of a balanced force. The force provided by the cable is equal and opposite to the force of gravity acting on the car, resulting in equilibrium and preventing the car from falling.
Balanced force occurs when two equal forces act on an object in opposite directions, resulting in no change in the object's motion. Unbalanced force occurs when two unequal forces act on an object, causing a change in the object's motion in the direction of the stronger force.
When a car is turning a corner, it experiences an unbalanced force. This is because the centripetal force needed to keep the car moving in a curved path is not balanced by an equal and opposite force. The friction between the tires and the road provides the necessary centripetal force.
An unbalanced force is when one force is stronger than another force acting on an object. This causes the object to move in the direction of the stronger force. For example, pushing a toy car harder on one side can make it turn because of unbalanced forces acting on it.
When turning while moving at a constant speed, a car is generally unbalanced. This is because centripetal force is needed to keep the car moving in a curved path, which requires a net force directed towards the center of the turn. If the car were balanced, it would continue in a straight line.
When making a balloon-powered car, it is typically designed to be unbalanced. The force of the escaping air from the balloon propels the car forward, creating an imbalance in forces that moves the car. This unbalance allows the car to move in the desired direction.
An example of balanced forces is a book sitting on a table, where the gravitational force pulling the book down is equal to the normal force pushing the book up. An example of unbalanced forces is a car accelerating forward, where the force applied on the gas pedal is greater than the force of friction slowing the car down.
An example of an unbalanced force is pushing a car to start it moving. The force applied by a person pushing the car is greater than the forces acting against it (friction, inertia), leading to a net force in the direction of motion.
The balloon car will have an unbalanced force on it when there is a difference in the forces acting on it, causing it to accelerate in a particular direction. This could happen if one side of the car experiences a greater force than the other, leading to an unbalanced force and acceleration.