Satellite Motion and Forces

History of satellite technology

Orbital mechanics and satellite launch

Introduction to satellite communication systems

Satellite communication protocols

Frictional and tension forces

Gravitational and magnetic forces

Centrifugal and centripetal forces

Electromagnetic and nuclear forces

The satellite's distance from the sun

The satellite's velocity

The satellite's temperature

The satellite's mass and gravitational pull

m * mu / r^2

m * g * r

m * a * r

m * v^2 / r

The satellite's mass

The satellite's gravitational pull

The satellite's velocity

The satellite's distance from Earth

m * v^2 / r

m * a * r

m * g * r

m * mu / r^2

Both forces must be zero

Both forces must be equal in magnitude and opposite in direction

Centrifugal force must be greater than centripetal force

Centripetal force must be greater than centrifugal force

Square root of r by mu

R times mu

Mu times r

Square root of mu by r

2 pi by mu r

2 pi r^2 by mu

2 pi by square root of mu r^3

2 pi r by square root of mu by r

Orbital radius

Semi-major axis

Gravitational constant

Semi-minor axis