Not quite. The issue here is that when you write a code snippet like:
Runnable r = new MyFooRunnable();
you essentially decide that the Runnable you will need is a MyFooRunnable (and not a MyBarRunnable or a third one). Occasionally you will want to postpone that decision from compile time to deployment time, so that the deployer can decide how the individual modules your application consists of are to be glued together.
Traditionally this has been done with factories, but this just moves the actual decision around in code and you still have to know all the possibilities when coding the factory or let it read instructions from a configuration file (which tends to be fragile to refactoring).
Dependency Injection is a formalization of configured factories in a way so the code does not need to know hardly anything about how things work. This is also why annotations have been found so useful for pointing out where the Dependency Injection should happen. If running the code in a non-DI setting (like a junit test) then there does not happen anything (which would have been hard to do with Factories littered all over).
So, Dependency Injection used liberally allows you to write modules that "snap" well together without knowing of each other at compile time. This is very similar to the jar-file concept, but it has taken longer to mature.