torque turns the wheels which moves internal combustion/electric cars.
In a jet car, thrust is the force the moves the car.
The force that moves a car is the engine's power, which is transferred to the wheels through the transmission system. As the engine burns fuel, it generates energy that pushes the car forward by turning the wheels.
The force that stops a car from sinking into the road is the normal force, which is the force exerted by the road surface in the opposite direction to the force of gravity. This force supports the weight of the car and prevents it from sinking into the road.
The force F = M (mass) * a (acceleration) (Newton's second law of motion)In metric units:Force: N (= mass*g) where g is approx equal 9.81 m/s^2 (depends on location, Sweden=9.819 m/s^2)mass: kgacc: m/s^sThe force must be greater than the resistance. The resistance increases with increased speed! To power a car at 40MPH requires xHP, at 80MPH it requires 8xHP!wind resistance (non linear!) (aka Cd)rolling resistance (constant) (aka Cr)etcIf you find this interesting have a look at:http://craig.backfire.ca/pages/autos/horsepowerhttp://en.wikipedia.org/wiki/Newton%27s_laws_of_motion
1. force that moves a car forward is the friction force between the tires and the road (ignoring what is going on mechanically in the car) 2. if the car is travelling at constant velocity, net force is zero - forces pushing car forward are equal to forces pushing car back
That force is simply the friction of the tires on the road. If the car was driving on a slippery ice surface, the friction might not be enough and the car would not make it around the sharp curve.
Torque which moves the car down the road.
yes when someone pushes a toy car it moves and it uses force.
the car moves in the direction opposite of the action force
In a car taking a turn, the centripetal force required to keep it moving in a curved path is provided by the friction between the tires and the road. As the car turns, the frictional force between the tires and the road acts as the centripetal force, pulling the car towards the center of the curve and preventing it from sliding outwards. The car's tires generate this force through their contact with the road surface.
The friction between the tires and the road surface supplies the centripetal force needed for a car to turn a corner on a valid road. The tires grip the road and create a frictional force that acts towards the center of the turn, allowing the car to change direction.
The motion observed in a ceiling fan is circular and repetitive, with the blades rotating around a central axis. In comparison, the motion observed in a car on the road is linear, with the car moving forward or backward along the surface. Both motions involve translational movement, but the ceiling fan's motion is rotational while the car's motion is linear.
Velocity