By finding the distance the car has travelled , in meters, in a specific time , in seconds , you get the speed of the car in meter per second
Then , Speed = Distance Travelled/Time Taken
The best that can be said is that you are moving relative to the Earth's surface.
If a car is moving at a constant speed, it is in a state of balanced forces. The forces acting on the car are equal in magnitude and opposite in direction, resulting in no change in its speed or direction.
The passenger in the rear seat of a car moving at a steady speed is at rest relative to the car itself. This is because the passenger and the car are both moving together at the same speed in the same direction, so from the perspective of the car, the passenger appears to be at rest.
The speed of the car has the greatest influence on the work required to bring it to a complete stop. The higher the speed, the more kinetic energy the car possesses, making it necessary to do more work to bring it to a stop.
An example of a car moving at constant speed and constant velocity would be a car driving along a straight road with no change in direction, where the speedometer shows a steady reading, and there are no changes in velocity or direction of motion. This means the car is moving at a consistent speed in a straight line without any acceleration or deceleration.
Your speedometer is broken.
The best that can be said is that you are moving relative to the Earth's surface.
moving
If a car is moving at a constant speed, it is in a state of balanced forces. The forces acting on the car are equal in magnitude and opposite in direction, resulting in no change in its speed or direction.
The passenger in the rear seat of a car moving at a steady speed is at rest relative to the car itself. This is because the passenger and the car are both moving together at the same speed in the same direction, so from the perspective of the car, the passenger appears to be at rest.
The speed of the car has the greatest influence on the work required to bring it to a complete stop. The higher the speed, the more kinetic energy the car possesses, making it necessary to do more work to bring it to a stop.
It shows the speed and the distance the car travels.
An example of a car moving at constant speed and constant velocity would be a car driving along a straight road with no change in direction, where the speedometer shows a steady reading, and there are no changes in velocity or direction of motion. This means the car is moving at a consistent speed in a straight line without any acceleration or deceleration.
The heat will also work when the car is turned on, but not moving. It uses heat from the engine.
A moving car has kinetic energy, which is the energy of motion. This energy is determined by the car's mass and speed.
It is easier to stop a bicycle than a car with the same speed because the bicycle has less mass and momentum compared to the car. The car's greater mass and momentum make it harder to stop quickly. The car's brakes also have to work against greater inertia, requiring more force and distance to stop.
Depends if it's a Toyota or not.