There are two cases:
same
Fg is equal to mass times acceleration. While the mass of the object does not change, acceleration (gravity) increases the more the object falls to the ground.
All objects on that ground that are upright.
No. You would also know a direction (in 2 dimensions) or - in 3 dimensional space - either two directions, or one direction and additional distance information (such as the height above the ground).
Yes, the weight of an object decreases as it gets farther from the earth (but it's mass remains the same). The weight of a space shuttle in its usual orbit is about 85% of what it is on the ground (it only seems weightless because it's in orbit).
Is the relationship between the distance measured on the map to the actual distance on the ground
Ground clearance in a substation is the distance between wires and the ground or other objects such as buildings. Sectional clearance is the distance between the wires themselves in a substation.
it tells the distance between objects on the map and objects on the ground, e.g. 1:50,000 means 1 inch on the map is the same as 50,000 inches on the ground
the benefit of a map scales is to show the relationship between the distance on the map and the real distance on the ground
"Scale is the proportion between a distance on the map and the corresponding distance on the ground"{Mansoor Ahmad50}
scales show the relationship between the distance on the map and the distance on the ground. (it makes the make more realistic and so you can calculate distances)
Galileo didn't discover a mathematical relationship for distance traveled when an object is being accelerated, as the maths only became possible when Issac Newton invented the calculus (partly for the reason of finding such a relationship). Galileo did discover objects accelerated at the same rate independent of mass in the gravitational field (a 10kg stone will hit the ground the same time as a 1kg stone if ignoring air) He suggested such experiments as dropping stones off the leaning tower of Pisa.
the relationship of distance measured on a map and the corresponding distance on the ground.
The differences between the these two is that linear scale shows the relation between the map distance and the ground distance. The nonlinear scale do not show the relation between the map distance and the ground distance.
Gravity keeps your feet on the ground. Gravity keeps all orbiting objects in orbit around the object they are orbiting. The force of gravity decreases as a square of the distance between two objects. Gravity is the weakest of the fundamental forces. Gravity is an attractive force between any two objects that have mass.
same
You are either friends or in a committed relationship.