This is happening because the DOMLoaded event is fired enough milliseconds before the page actually renders.
In a nutshell, this means you have to optimise your website's speed. This doesn't mean to make it download faster, but it means to download in the correct order, in a non-blocking way.
Step one: Your markup
There is 1 script block found in the head between an external CSS file and another resource. To allow parallel downloading, move the inline script before the external CSS file, or after the next resource.
Loading your script asynchronously in the head is my preferred method. You will then have to trigger your script when the DOM has finished loading, or you can achieve the same result by placing the script at the bottom of the body tag.
Step two: Harness the browser's capabilities
These items are explicitly non-cacheable, and this can be easily fixed by editing your webserver's configuration.
2) Enable gzip compression. Most web browsers (yes, even IE) supports gzip decompression, and most (if not all) web servers support compressing using gzip. You could even go overkill and look into SPDY, which is an alternative lighter HTTP protocol (supported in Chrome and Firefox).
Step three: Content serving
There are around 30 individual items being served from your domain. Firstly, consider how you could reduce this number of requests. 30 HTTP requests per page view is a lot. You can combat this using the following methods:
1) Paralleled downloads across multiple hostnames. Browsers currently limit the number of concurrent connections to a single domain. Serving your images from a separate domain (for example, img.bigtim.ca) can allow them to be served in parallel to other content.
2) Combine multiple items into one. Many items that are downloaded are purely style content, such as the logo, menu elements, etc. These can be combined into a single image (downloaded only once), and split using CSS. This is called CSS spriting. Stack Overflow does this: look here.
3) If you cannot reduce the amount of items needing downloading, you could reduce the load on your server (and in turn, the client's browser) by serving static content from a cookieless domain. Stack Overflow does this with all their static content such as images, stylesheets and scripts.
Step four: Optimise your own code
There's only so much that HTTP and browser technology can do to help your website's speed. This last step is down to you.
1) Is there any reason you choose to host jquery yourself? Jquery's download page shows multiple CDNs where you can point to for speedy, cached script downloading.
2) There are currently over 20 unused CSS rules within your stylesheets (that's 36% of your entire CSS file). Have a re-think of what is really needed.
Seeing things like this:
$("body").css ("background-image", "url('images/background.png')"); and
$("#website").show (); usually gets me ranting about "separation of concerns", but this answer is long enough now so hopefully you can see that it is bad practice to mix style and functionality in the same code.
Addendum: Looking at the code, there is no need for jquery at all to
perform what you are doing. But then again, there is no need to
perform what you are doing, so you could probably do better with a
lighter framework such as Vapour.JS