Grimstone said:
stationary or not?
I understand that satellites orbit the Earth at a speed and angle that allows them to "free fall" the entire time. That is they are going so fast that they are always cresting the edge of the planet and always in a state of free fall.
isn't it possible to place a satellite or station that is pretty much stationary over the poles?
yes the orbit of the Earth is not round. yes the Earth tilts.
It's not possible to put a single satellite into an orbit that's stationary over the poles, but it is possible to accomplish the same result using several satellites.
With a constellation of satellites in Molniya orbits, you can stagger their orbits so there's always
some satellite in the same given location all of the time. From the point of view of the tracking station, they point their antenna roughly in one direction and each satellite moves into that location in a kind of relay race. The antenna barely has to move to pick up the next satellite coming along.
Typically, this is done with six satellites in a semi-synchronous orbit (two orbits per day, which means each satellite is used for two periods per day, giving you the equivalent of a 12 satellite relay race). You could do this with a minimum of four satellites if you were willing to move your antenna just a bit further to pick up the next satellite coming along.
And, the satellites wouldn't be directly over the poles. They have to have an inclination angle of 63.4 degrees, so you'd actually always have a satellite at about 63.4 degrees latitude with some nearly constant longitude.
The 63.4 degree requirement is because you create this relay race with satellites in highly elliptical orbits. The satellite is used when its at apogee and is moving very slowly. Because of the equatorial bulge, perigee and apogee will move forwards or backwards depending on the inclination angle, with 63.4 degrees being the angle where perigee and apogee remain stationary.