Should you watch sci-fi motion pictures, you’d assume that flying a spaceship is rather like driving a barely extra sophisticated automobile (or a Winnebago in Spaceballs). And George Lucas gave us those galactic battles with pilots who seem like they’re flying fighter jets on Earth.
Effectively, dangerous information: Area is absolutely, actually completely different. Particularly, transferring a car in orbit round Earth is far more sophisticated than that. The maneuvers you would possibly make with a airplane generally have the other impact in orbit.
To see what I imply, we’ll first simply seize some primary physics and construct ourselves just a little mannequin of orbital mechanics, after which I’ve some cool simulations of an tried docking maneuver. Learn on!
Round Orbits
Think about flying in a round orbit round Earth. There are three huge physics concepts we have to perceive this sort of movement. First, centripetal acceleration. Recall that acceleration is a measure of how briskly the rate of an object modifications.
However velocity isn’t simply velocity, it’s velocity in a specific path—in different phrases, it’s a vector. If an object is transferring in a circle, its path is consistently altering, which implies it’s continuously accelerating, even when its velocity is fixed!
The path of this acceleration is towards the middle of the circle. (“Centripetal” means center-pointing.) The magnitude of the acceleration is determined by each the magnitude of the rate (v), i.e., the velocity, and the radius (r) of the circle. This provides the next equation:
Courtesy of Rhett Allen
