There are two pieces of data that need to be recorded. The distance and the time it takes to complete the known distance, gives you the speed. For an example, your car travels at a steady 60 miles, in one hour you would expect to have travelled 60 miles.
It is sometimes called the displacement.
Distance
Relative or apparent motion.
It can measured by calculating distance covered by the moving object in certain period of time.
The distance an object travels in a certain period of time without regard to direction is known as the object's displacement. Displacement is a vector quantity, meaning it has both magnitude (length) and direction. It is calculated by subtracting the initial position of the object from its final position. For example, if an object starts at position (2, 4) and ends at position (6, 8), the displacement would be (4, 4). Displacement is a vector quantity It has both magnitude (length) and direction It is calculated by subtracting the initial position of the object from its final positionTo put it simply, displacement is the distance an object travels in a certain period of time without regard to direction.
speed
Distance
Relative or apparent motion.
It can measured by calculating distance covered by the moving object in certain period of time.
That over an extended period of time of n seconds, it will have travelled a distance of n miles.
The distance an object travels in a certain period of time without regard to direction is known as the object's displacement. Displacement is a vector quantity, meaning it has both magnitude (length) and direction. It is calculated by subtracting the initial position of the object from its final position. For example, if an object starts at position (2, 4) and ends at position (6, 8), the displacement would be (4, 4). Displacement is a vector quantity It has both magnitude (length) and direction It is calculated by subtracting the initial position of the object from its final positionTo put it simply, displacement is the distance an object travels in a certain period of time without regard to direction.
I am not sure how you would do that. However, it is relatively simple to set up an experiment to show that velocity (over a period of time) affects distance. Select an object whose velocity can be changed from one constant value to another. Alternatively, select a set of objects that can travel at different, but constant, velocities. Measure the distance travelled by each object in the chosen time period (or have a race).
There are two ways to find the distance traveled. One is to measure the distance traveled. The other is to measure the distance raveled within a certain amount of time and then multiply to find how far it will travel in the future.
Distance travelled / time taken to travel the distance
Speed is the measurement of distance travelled over a certain time period. For instance, a speed of 60 MPH (miles per hour) means that in 1 hour, if travelling at a constant speed, you would have travelled 60 miles.
speed
Either one of the following observations tells you that an object is accelerating: -- Three points in the object's path are not in a straight line. -- The distance the object travels in a period of time is not the same as the distance it travels in another period of the same duration.
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