See veben's answer for a short sequence of commands to use.
To understand what's really going on, be aware that Git has a somewhat peculiar notion of how to do source code version control. In particular:
What matters to Git are commits. A commit has some metadata, such as who made it, when, and why (the author's log message), along with a full, complete snapshot of all files. Commits are identified by big ugly strings of letters and digits. These are called hash IDs, or sometimes SHA-1 IDs (Git currently uses Secure Hash Algorithm 1 to make them) or Object IDs (OIDs). People sometimes refer to them as the commit hash (when they're specifically for commits—Git uses this for other things too).
The files that are in commits are frozen, and compressed into a special Git-only form. (In fact, everything in a commit is frozen—you can't change it, you can only thaw it out and make a new and improved one and use that instead of the old one. That's what
git commit --amend does, for instance.) Since they are in a Git-only form, you need a place to work.
Hence, Git provides you with a work-tree. Here, your files have their ordinary everyday form. You can use them, edit them, replace them, and so on. Git doesn't really use these files for much at all—it just provides them, extracted from a commit.
Git makes new commits from what Git calls, variously, the index, the staging area, or the cache, depending on who / what part of Git is doing the calling. The index is hard to see (you can see it—try
git ls-files --stage, for instance—but usually it has way too much stuff in it to look at it this way). The files in the index are in the special Git-only form, ready to be committed: almost, but not quite, frozen.
git add command, which you will need to use quite often, copies a file from the work-tree—the one that you've worked on, or newly created if that's the case—into the index. This replaces the previous copy, if there was one, or puts a new file into the index for the first time. It's now ready to be committed.
Many other Git commands also use or manipulate the index. The most obvious is
git commit, which takes whatever's in the index right now and freezes it into a new commit. Less obvious is
git reset, which—depending on options and flags—copies files from the commit to the index and maybe also to the work-tree. The
git checkout command has a mode where it, too, copies files from a commit to the index and then to the work-tree, or from the index to the work-tree without first coming out of a commit.
When you use
git status to see what's going on,
git status compares the current (or
HEAD) commit to the index. Whatever is different here is
staged for commit. Then it compares the index to the work-tree. Whtaever is different here is
not staged for commit. So if you have made some changes, and used
git add to copy them into the index / staging-area,
HEAD vs index will show staged changes. If you have not yet used
HEAD vs index will show nothing, but index-vs-work-tree will show unstaged changes.
The index is often a pain, and one might wish that Git were like Mercurial (which doesn't bother with an index), but it also lets you do some fancy tricks. It's important to be aware that there are three copies of every file: one in
HEAD, one in the index, and one in the work-tree, instead of just the frozen
HEAD copy and the editable work-tree copy.