BTW, it may be a better idea to post this to http://gaming.stackexchange.com/
However, as the name suggests:
You'll need an understanding of Physics. How deep you wish to go with that is up to you as Physics is the study of the natural world so it automatically encompasses study of very large things (clusters of galaxies, galaxies, nebulae, etc.) to very small things (atoms, quarks, etc.). Hence, the Physics gets very exotic very quickly (i.e. you start dealing with Quantum Mechanics, String Theory, Relativistic Mechanics, etc.). But, something to keep in mind is that most Physics in game engines use Newtonian Mechanics. So, my suggestion is begin there.
Next, you have to decide what language your engine is going to be in. Most people usually design the engine in the same language as the language the game logic is written in. But, that's not necessarily true. Mainly, the language you develop your engine in is going to be limited to what problems you want your engine to address in addition to the engine's speed, ease of use, ease of development, maintainability, etc. As you would expect, this often means that the development of a Physics Engine is an ambitious and time-consuming endeavor as most aspects of the engine set the limits for how the game will be designed.
Once you've made all those choices, next you have to figure out how you wish to implement your engine (e.g. using Procedural compared to Object Oriented methodologies). But, that again is going to be limited to the language you choose. However, it should be noted that each methodology has its merits and bad points. You'll have to research the methodologies based on what problems you wish to address in your game engine. Example: if all your game does is projectile motion, then create a game that implements equations to solve projectile motion equations.
Of course it's more involved than this, but it should give you an idea of where to begin and what to do. And, it should be noted that this is keeping in mind that standard software development methods should be addressed at all times: maintainability, unit-tests, code backup (via repositories), etc.
- Your engine is going to be limited to the language you develop it in.
- The language you develop it in is going to be limited to the problems you want to address with your engine. Problems being: speed, ease of development, accuracy, maintainability, etc.
- Most Physics Engines are based on Classical Mechanics.