a car driver accelerates to a speed of 35 miles per hour and then takes her foot off the gas pedal even though she does not press the brake pedal at any time she eventually rolls to a stop which of the following most likely causes the car to come to a stop
No "following." Cannot copy and paste here.
friction between tires and road?
The most likely cause for the car to come to a stop in this scenario is due to the presence of opposing forces acting against the car's motion. When the driver takes her foot off the gas pedal, the car is no longer receiving any forward propulsion from the engine. However, other forces such as friction and air resistance are continuously acting on the car, gradually slowing it down until it eventually comes to a stop.
To explain further, when the driver accelerates to a speed of 35 miles per hour, the car gains kinetic energy. Kinetic energy is the energy associated with an object's motion. As the car moves, it encounters friction between its tires and the road surface, which acts in the opposite direction. Additionally, air resistance also opposes the car's forward motion. Both of these forces, friction and air resistance, act to gradually decelerate the car.
The rate at which the car decelerates depends on various factors such as the car's mass, the road conditions, and the air density. Eventually, the opposing forces exerted by friction and air resistance become greater than the remaining kinetic energy of the car, causing it to come to a complete stop.