It is not necessary to know the distance between two points to determine the average slope. You just need to know the x and y coordinates of each point. The slope is defined as 'rise' divided by 'run' or the difference of the y's / difference of the x's. So if,
Point 1 is (x1,y1) and point 2 is (x2,y2)
then the slope would be:
(y2 - y1) / (x2 - x1)
The midpoint is the point between the beginning and the end, in distance or in time.
The mass of each object and the distance between their centers of mass
For the distance, use the Pythagorean formula. For the midpoint, take the average of the x-coordinates, and the average of the y-coordinates.
Find the average of the two sides (Longest length plus shortest length. Divide this addition by 2). Multiply the result by its height (which is the distance between the longest side and the shortest side).
The two factors are the amount of mass an object has and the distance between the two objects.
change in elevlation
The distance between two points must be known to determine the average slope between the two points. You must also know the change in elevation.
An Astronomical Unit (AU) is the average distance between the Earth and the Sun.
One AU is the distance between the Earth and the Sun.
The average distance between Earth and its moon is 238,000 miles, approximately.
The masses of the two objects and the distance between them.
distance between the lines
Linkage mapping,
The average distance between the earth and moon is : 384,401 kilometres. Average meaning it changes from time to time
The distance between the sun and a planet determines its orbital period, its orbital speed, and the amount of insolation. Other factors such as composition and albedo are required to determine other variables.
Mars' average distance from the sun is greater than Earth's average distance, and less than the average distance of most of the members of the asteroid belt. So, the answer is YES.
The scale