The motion of a car can be described as the change in its position over time, typically characterized by its speed, direction, and acceleration. When a car accelerates, it increases its speed; when it decelerates, it slows down. The path taken by the car can be straight, curved, or involve various maneuvers, depending on the road conditions and driving behavior. Overall, the car's motion is influenced by factors such as engine power, friction, and external forces like gravity and air resistance.
From your perspective inside the car, you are at rest relative to the car. You are moving forward relative to the road outside. Your motion with respect to the sun is a combination of the car's motion and the Earth's rotation, so you are also moving along with the rotation of the Earth.
Relative to the car, you are at rest. Relative to the road, you are moving if the car is in motion. Relative to the sun, you are moving with the Earth's rotation and orbit around the sun.
the point of view that you describe motion from is whatever you choose it to be. generally we describe motion relative to earth. for example you could say that a car is moving 60mph north, and it would be assumed to be moving relative to earth; but if someone is riding their bike 10mph north, then the car is moving 50mph north relative to the bike. you see, you could describe the car moving compared to a star in a distant galaxy if you wanted, but that would be useless information so you should choose something relative to the problem.
Uniform motion is described by distance divided by time, such as, miles per hour, commonly used to describe the motion of a car, or kilometers per hour for those who prefer the metric system.
An example of describing an object's motion in relation to a reference point is: "The car moved northwards from the stop sign at the intersection." Here, the reference point is the stop sign, and the car's position and direction of motion (northwards) are described in relation to that reference point.
Describe the three types of plate motion and the faults that are characteristic of each type of motion.
The term used to describe motion is "kinematics." Kinematics is the branch of mechanics that deals with the motion of objects without considering the forces that cause the motion.
The two factors that describe motion are thing. :)
This observation can be explained by Newton's second law of motion, which states that the force required to accelerate an object is directly proportional to its mass. A smaller car has less mass, so less force is needed to get it moving compared to a larger car.
Motion = dPosition/dt
Relative to the car you are motionless. Relative to the road you are moving at the speed of the car. Relative to the sun you are moving at the speed of Earth as it orbits the sun (30km a second).
Motion is always relative, depending on the reference point. If a tree is the reference point, then the car zooming past will be moving. But, if you use the car as the reference point, then it seems as though the tree is zooming past.